 |
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
|
| If you can't view the Datasheet, Please click here to try to view without PDF Reader . |
|
|
| Datasheet File OCR Text: |
| 1 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 future technology devices international ltd vinculum - ii embedded dua l usb host controller ic vinculum - ii is ftdi?s ? em bedded processor core ? 16 bit harvard architecture ? two full - speed or low - speed usb 2.0 interfaces capable of host or slave functions ? 256kbytes on - chip e - flash memory ( 128k x 16 - bits) ? 16kbytes on - chip data ram ( 4k x 32 - bits ? programmable uart up to 6 mbaud ? two spi (serial peripheral) slave interfaces and one spi master interface ? reduced power modes capability ? variable instruction length ? native support for 8, 16 and 32 bit data types ? eight bit wide fifo interface ? f irmware upgrades via uart, spi, and fifo in terface ? 12mhz oscillator using external crystal ? general - purpose timers ? +3.3v single supply operation with 5v safe inputs ? software development s uite of tools to create customised firmware . compiler linker C C ? available in six rohs compliant pa ckages - 32 lqfp, 32 qfn, 48 lqfp, 48 qfn, 64 lqfp and 64 qfn ? vnc2 - 48l1 package option compatible with vnc1l - 1a ? 44 configurable i/o pins on the 64 pin device, 28 i/o pins on the 48 pin device and 12 i/o on the 32 pin device using the i/o multiplexer ? - 40c to + 85c extended operating temperature range ? simultaneous multiple file access on boms devices ? eight pulse width modulation outputs to allow connectivity with motor control applications ? debugger interface module ? system suspend modes use of ftdi device s in life support and/or safety applications is entirely at the user?s risk, and the user agrees to defend, indemnify and hold harmless ftdi from any and all damages, claims, suits or expense resulting from such use.
2 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 1 typical applications add usb host cap ability to embedded products interface usb flash drive to mcu/pld/fpga C data storage and firmware updates usb flash drive data storage or firmware updates usb flash drive to usb flash drive file transfer interface digital camera to usb flash drive * pda to usb flash drive * mp3 player to usb flash drive or other usb slave device interface osi wireless interface usb wireless process controller telecom system calls logging to replace printer log data logging mobile phone to usb flash drive* gps to mobile phone interface instr umentation usb flash drive* data - logger usb flash drive* set top box - usb device interface gps tracker with usb flash disk storage usb webcam flash drive to sd card data transfer vending machine connectivity tlm serial converter geotaggin g of photos C gps location linked to image motorcycle system telemetry logging medical systems pwm applications for motor control applications e.g. toys fpga interfacing * or similar usb slave device interface e.g. usb external drive. 1.1 part numbers part number package vnc2 - 64 l1b 64 pin lqfp vnc2 - 64q 1b 64 pin qfn vnc2 - 48 l1b 48 pin lqfp vnc2 - 48q 1b 48 pin qfn vnc2 - 32l1b 32 pin lqf p vnc2 - 32q 1b 32 pin qfn table 1 . 1 part numbers please refe r to section 11 for all package mechanical parameters. 1.2 usb compliant at time of writing this data sheet, vnc2 has not completed usb compliancy testing. 3 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 2 vnc2 block diagram for a description of each function please refer to section 4 . figure 2 . 1 simplified vnc2 block diagram u a r t u s b h o s t / d e v i c e c o n t r o l l e r s p i m a s t e r p w m s f i f o i n t e r f a c e s p i s l a v e 0 s p i s l a v e 1 g e n e r a l p u r p o s e t i m e r s g p i o s i n p u t / o u t p u t m u l t i p l e x e r u s b h o s t / d e v i c e c o n t r o l l e r p e r i p h e r a l b u s d m a 3 d m a 2 d a t a m e m o r y b u s 1 6 k b y t e s d a t a r a m ( 4 k x 3 2 ) e m b e d d e d c p u d e b u g g e r f l a s h p r o g r a m m e r d m a 1 d m a 0 u s b h o s t / d e v i c e t r a n s c e i v e r 0 u s b h o s t / d e v i c e t r a n s c e i v e r 1 u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m d e b u g g e r i / f x t o u t x t i n o s c i l l a t o r / p l l i n t e r n a l c l o c k s a n d t i m e r s 3 2 b i t b u s 8 b i t b u s 2 5 6 k b y t e s e - f l a s h ( 6 4 k x 3 2 ) p r o g r a m m e m o r y b u s 4 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 table of contents 1 typical applications ................................ ................................ ...... 2 1.1 part numbers ................................ ................................ ...................... 2 1.2 usb compliant ................................ ................................ .................... 2 2 vnc2 block diagram ................................ ................................ ..... 3 3 device pin out and signal description summary .......................... 7 3.1 pin out - 32 pin lqfp ................................ ................................ ......... 7 3.2 pin out - 32 pin qfn ................................ ................................ .......... 8 3.3 pin out - 48 pin lqfp ................................ ................................ .......... 9 3.4 pin out - 48 pin qfn ................................ ................................ .......... 9 3.5 pin out - 64 pin lqfp ................................ ................................ ....... 10 3.6 pin out - 64 pin qfn ................................ ................................ ........ 12 3. 7 vnc2 schematic symbol 32 pin ................................ ......................... 12 3.8 vnc2 schematic symbol 48 pin ................................ ......................... 14 3.9 vnc2 schematic symbol 64 pin ................................ ......................... 15 3.10 pin configuration usb and power ................................ .................. 16 3.11 miscellaneous signals ................................ ................................ .... 17 3.12 pin configu ration input / output ................................ ................... 18 4 function description ................................ ................................ ... 21 4.1 key features ................................ ................................ ..................... 21 4.2 functional block descriptions ................................ ........................... 21 4.2.1 embedded cpu ................................ ................................ ................................ .......... 21 4.2.2 flash module ................................ ................................ ................................ ............. 21 4.2.3 flash programming module ................................ ................................ ......................... 21 4.2.4 input / output multiplexer module ................................ ................................ ............... 22 4.2.5 peripheral dma module s 0, 1, 2 & 3 ................................ ................................ ............. 23 4.2.6 ram module ................................ ................................ ................................ .............. 23 4.2.7 peripheral interface modules ................................ ................................ ....................... 23 4.2.8 usb transceivers 0 and 1 ................................ ................................ ........................... 23 4.2.9 usb host / device controllers ................................ ................................ ..................... 23 4.2.10 12mhz oscillator ................................ ................................ ................................ .... 23 4.2.11 power saving modes and standby mode. ................................ ................................ ... 23 5 i/o multiplexer ................................ ................................ .......... 24 5.1 i/o perip herals signal names ................................ .......................... 29 5.2 i/o multiplexer configuration ................................ ........................... 30 5.3 i/o mux group 0 ................................ ................................ ............... 30 5.4 i/o mux group 1 ................................ ................................ ............... 31 5 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5.5 i/o mux group 2 ................................ ................................ ............... 32 5.6 i/o mux group 3 ................................ ................................ ............... 34 5.7 i/o mux interface configuration example ................................ ........ 35 6 peripheral interfaces ................................ ................................ . 36 6.1 uart interface ................................ ................................ ................. 36 6.1.1 uart mode signal descriptions ................................ ................................ ................... 37 6.2 serial peripheral interface C spi modes ................................ ........... 39 6.2.1 spi clock phase modes ................................ ................................ ............................... 40 6.3 serial peripheral interface C slave ................................ ................... 41 6.3.1 spi slave signal descriptions ................................ ................................ ...................... 42 6.3.2 full duplex ................................ ................................ ................................ ................ 43 6.3.3 half duplex, 4 pin ................................ ................................ ................................ ...... 45 6.3.4 half duple x, 3 pin ................................ ................................ ................................ ...... 46 6.3.5 unmanaged mode ................................ ................................ ................................ ...... 47 6.3.6 vnc1l legacy interface ................................ ................................ .............................. 48 6.4 serial peripheral interface C spi master ................................ ........... 53 6.4.1 spi master signal descriptions. ................................ ................................ ................... 53 6.5 debugger interface ................................ ................................ .......... 56 6.5.1 debugger interface signal description ................................ ................................ .......... 56 6.6 parallel fifo C asynchronous mode ................................ .................. 57 6.6.1 fifo signal descriptions ................................ ................................ ............................. 57 6.6.2 read / write transaction asynchronous fifo mode ................................ ........................ 59 6.7 parallel fifo C sy nchronous mode ................................ ................... 61 6.7.1 read / write transaction synchronous fifo mode ................................ ......................... 62 6.8 general purpose timers ................................ ................................ .... 63 6.9 pulse width modulation ................................ ................................ .... 63 6.10 general purpose input output ................................ ....................... 64 7 usb interfaces ................................ ................................ ........... 65 8 firmware ................................ ................................ .................... 66 8.1 rtos ................................ ................................ ................................ . 66 8.2 device drivers ................................ ................................ ................... 66 8.3 firmware C software development toolchain ................................ ... 66 8.4 precompiled firmware ................................ ................................ ...... 67 9 de vice characteristics and ratings ................................ ............. 68 9.1 absolute maximum ratings ................................ ............................... 68 9.2 dc characteristics ................................ ................................ ............. 69 9.3 esd and latch - up specifications ................................ ....................... 71 10 application examples ................................ ................................ . 72 6 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 10.1 example vnc2 schematic (mcu C uart interface) ........................ 72 11 package parameters ................................ ................................ ... 73 11.1 vnc2 package markings ................................ ................................ 73 11.2 vnc2, lqfp - 32 package dimensions ................................ .............. 74 11.3 vnc2, qfn - 32 package dimensions ................................ ............... 75 11.4 vnc2, lqfp - 48 package dimens ions ................................ .............. 76 11.5 vnc2, qfn - 48 package dimensions ................................ ............... 77 11.6 vnc2, lqfp - 64 package dimensions ................................ .............. 78 11.7 vnc2, qfn - 64 package dimensions ................................ ............... 79 11.8 solder reflow profile ................................ ................................ ..... 79 12 contact information ................................ ................................ ... 82 appendix a C references ................................ ................................ ... 83 application, technical notes and toolchain download links ....................... 83 acronyms and abbreviations ................................ ................................ ..... 84 appendix b C list of figures and tables ................................ ............. 85 list of tables ................................ ................................ ............................. 85 list of figures ................................ ................................ ............................ 86 appendix c C revision history ................................ ........................... 88 7 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3 device pin out and signal description summary vnc2 is available in six packages: 32 pin lqfp, 32 pin qfn , 48 pin lqf p (pin compatible with vnc1l ), 48 pin qfn, 64 pin lqfp and 64 p in qfn . figure 3.3 shows how the vnc2 pins map to the vnc1l pins ( vnc2 pins labelled in bold text ): 3.1 pin out - 32 pin lqfp figure 3 . 1 32 pin lqfp C top down view f t d i x x x x x x x x x x v n c 2 - 3 2 l 1 a y y w w g n d c o r e u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m v c c i o 3 . 3 v i o b u s 4 i o b u s 5 2 5 2 6 2 7 2 8 2 9 3 0 3 1 3 2 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 1 6 1 5 1 4 1 3 1 2 1 1 1 0 9 8 7 6 5 4 3 2 1 g n d c o r e i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 1 1 i o b u s 1 0 i o b u s 9 v c c i o 3 . 3 v g n d c o r e 1 . 8 v v r e g o u t 1 . 8 v v c c p l l i n x t i n x t o u t g n d p l l 3 . 3 v v r e g i n t e s t r e s e t # p r o g # i o b u s 0 i o b u s 1 g n d i o v c c i o 3 . 3 v i o b u s 2 i o b u s 3 8 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.2 pin out - 32 pin qfn figure 3 . 2 32 pin qfn C top down view g n d c o r e 1 . 8 v v r e g o u t 1 . 8 v v c c p l l i n x t i n x t o u t g n d p l l 3 . 3 v v r e g i n t e s t 2 5 2 6 2 7 2 8 2 9 3 0 3 1 3 2 1 6 1 5 1 4 1 3 1 2 1 1 1 0 9 8 7 6 5 4 3 2 1 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 g n d c o r e i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 1 1 i o b u s 1 0 i o b u s 9 v c c i o 3 . 3 v r e s e t # p r o g # i o b u s 0 i o b u s 1 g n d i o v c c i o 3 . 3 v i o b u s 2 i o b u s 3 g n d c o r e u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m v c c i o 3 . 3 v i o b u s 4 i o b u s 5 f t d i x x x x x x x x x x v n c 2 - 3 2 q 1 a y y w w 9 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.3 pin out - 48 pin lqfp figure 3 . 3 48 pin lqfp C top down view 3.4 pin out - 48 pin qfn i t a l i c t e x t = v n c 1 b o l d t e x t = v n c 2 f t d i x x x x x x x x x x v n c 2 - 4 8 l 1 a y y w w g n d a d b u s 6 a d b u s 7 a c b u s 0 a c b u s 7 a c b u s 6 a c b u s 5 a c b u s 4 a c b u s 3 a c b u s 2 a c b u s 1 v c c i o g n d c o r e i o b u s 1 8 i o b u s 1 9 i o b u s 2 0 i o b u s 2 7 i o b u s 2 6 i o b u s 2 5 i o b u s 2 4 i o b u s 2 3 i o b u s 2 2 i o b u s 2 1 v c c i o 3 . 3 v g n d b d b u s 2 b d b u s 5 b d b u s 4 b d b u s 3 v c c i o b d b u s 6 b d b u s 7 b c b u s 0 b c b u s 1 b c b u s 2 b c b u s 3 g n d i o i o b u s 2 i o b u s 5 i o b u s 4 i o b u s 3 v c c i o 3 . 3 v i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 g n d v c c a v c c x t i n x t o u t a g n d p l l f l t r t e s t r e s e t # p r o g # b d b u s 0 b d b u s 1 g n d c o r e 3 . 3 v v r e g i n 1 . 8 v v c c p l l i n x t i n x t o u t g n d p l l 1 . 8 v v r e g o u t t e s t r e s e t # p r o g # i o b u s 0 i o b u s 1 g n d u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m v c c i o a d b u s 0 a d b u s 1 a d b u s 2 a d b u s 3 a d b u s 4 a d b u s 5 g n d c o r e u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m v c c i o 3 . 3 v i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 2 1 4 3 5 7 6 8 9 1 1 1 0 1 2 4 8 4 7 4 6 4 5 4 4 4 3 4 2 4 1 4 0 3 9 3 8 3 7 3 5 3 6 3 3 3 4 3 2 3 0 3 1 2 9 2 8 2 6 2 7 2 5 10 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 3 . 4 48 pin qfn C top down view 3.5 pin out - 64 pin lqfp g n d c o r e 3 . 3 v r e g i n 1 . 8 v c c p l l i n x t i n x t o u t g n d p l l 1 . 8 v r e g o u t t e s t r e s e t # p r o g # i o b u s 0 i o b u s 1 2 1 4 3 5 7 6 8 9 1 1 1 0 1 2 f t d i x x x x x x x x x x v n c 2 - 4 8 q 1 a y y w w i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 v c c i o 3 . 3 v i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 g n d i o 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 u s b 1 d m u s b 1 d p u s b 2 d p g n d c o r e v c c i o 3 . 3 v u s b 2 d m i o b u s 1 3 i o b u s 1 2 i o b u s 1 5 i o b u s 1 4 i o b u s 1 7 i o b u s 1 6 i o b u s 1 9 i o b u s 1 8 v c c i o 3 . 3 v g n d i o b u s 2 1 i o b u s 2 0 i o b u s 2 3 i o b u s 2 2 i o b u s 2 5 i o b u s 2 4 i o b u s 2 7 i o b u s 2 6 4 8 4 7 4 6 4 5 4 4 4 3 4 2 4 1 4 0 3 9 3 8 3 7 3 5 3 6 3 3 3 4 3 2 3 0 3 1 2 9 2 8 2 6 2 7 2 5 11 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 3 . 5 64 pin lqfp C top down view 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 3 0 3 1 3 2 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 6 0 6 1 6 2 g n d c o r e i o b u s 3 2 i o b u s 3 3 i o b u s 3 4 i o b u s 4 1 i o b u s 4 0 i o b u s 3 9 i o b u s 3 8 i o b u s 3 7 i o b u s 3 6 i o b u s 3 5 v c c i o 3 . 3 v g n d c o r e 3 . 3 v v r e g i n 1 . 8 v v c c p l l i n x t i n x t o u t g n d p l l 1 . 8 v v r e g o u t t e s t r e s e t # p r o g # i o b u s 0 i o b u s 1 g n d i o i o b u s 5 i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 g n d c o r e u s b 1 d p u s b 1 d m u s b 2 d p u s b 2 d m v c c i o 3 . 3 v i o b u s 2 0 i o b u s 2 1 i o b u s 2 2 i o b u s 2 3 i o b u s 2 4 i o b u s 2 5 3 3 3 4 3 5 3 6 3 7 3 8 3 9 4 0 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 5 0 6 3 i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 v c c i o 3 . 3 v i o b u s 1 0 i o b u s 1 8 i o b u s 1 9 i o b u s 2 8 i o b u s 2 7 i o b u s 2 6 i o b u s 2 9 i o b u s 3 0 i o b u s 3 1 i o b u s 4 3 i o b u s 4 2 f t d i x x x x x x x x x x v n c 2 - 6 4 l 1 a y y w w 6 4 12 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.6 pin out - 64 pin qfn figure 3 . 6 64 pin qfn C top down view 3.7 vnc2 schematic symbol 32 pi n 2 1 4 3 5 7 6 8 9 1 1 1 0 1 2 x t o u t g n d p l l 1 . 8 v r e g o u t t e s t r e s e t # p r o g # i o b u s 0 i o b u s 1 1 3 1 5 1 4 1 6 g n d c o r e 3 . 3 v r e g i n 1 . 8 v c c p l l i n x t i n i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 i o b u s 8 i o b u s 9 v c c i o 3 . 3 v i o b u s 1 0 g n d i o 1 9 2 0 2 1 2 2 2 3 2 4 2 5 2 6 2 7 2 8 2 9 3 0 1 7 1 8 3 1 3 2 i o b u s 6 i o b u s 7 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 4 3 4 4 4 1 4 2 4 0 3 8 3 9 3 7 3 6 3 4 3 5 3 3 4 7 4 8 4 5 4 6 u s b 1 d p u s b 1 d m g n d c o r e u s b 2 d p u s b 2 d m v c c i o 3 . 3 v i o b u s 2 0 i o b u s 2 1 i o b u s 2 2 i o b u s 2 3 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 i o b u s 2 8 i o b u s 2 9 i o b u s 3 1 i o b u s 3 0 v c c i o 3 . 3 v i o b u s 3 2 i o b u s 3 3 g n d c o r e i o b u s 3 5 i o b u s 3 4 i o b u s 3 7 i o b u s 3 6 i o b u s 3 9 i o b u s 3 8 i o b u s 4 1 i o b u s 4 0 i o b u s 4 3 i o b u s 4 2 6 0 5 9 5 8 5 7 5 6 5 5 5 4 5 3 5 2 5 1 5 0 4 9 6 4 6 3 6 2 6 1 f t d i x x x x x x x x x x v n c 2 - 6 4 q 1 a y y w w 13 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 3 . 7 schematic s ymbol 32 pin v c c i o v c c i o v c c i o v r e g i n 1 8 1 7 8 u s b 1 d p u s b 1 d m r e s e t # p r o g # v r e g o u t t e s t u s b 2 d p u s b 2 d m 4 5 x t i n x t o u t v n c 2 3 2 p i n 7 1 0 9 2 1 2 0 2 8 2 2 1 3 3 n g n d g n d g d g n d 2 7 1 9 1 6 6 1 1 1 2 1 4 1 5 i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 2 3 2 4 2 5 2 6 i o b u s 7 i o b u s 6 i o b u s 5 i o b u s 4 2 9 3 0 3 1 3 2 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 l p l g n d 1 v c c p l l i n 2 14 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.8 vnc2 schematic symbol 48 pin figure 3 . 8 schematic s ymbol 48 pin v c c i o v c c i o v c c i o 2 6 2 5 8 u s b 1 d p u s b 1 d m r e s e t # p r o g # v r e g o u t t e s t u s b 2 d p u s b 2 d m 4 5 x t i n x t o u t v n c 2 4 8 p i n 7 1 0 9 2 9 2 8 4 0 3 0 1 7 2 3 n g n d g n d g d g n d 3 9 2 7 2 4 6 1 1 1 2 1 3 1 4 i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 1 5 1 6 1 8 1 9 i o b u s 7 i o b u s 6 i o b u s 5 i o b u s 4 2 0 2 1 2 2 2 3 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 3 1 3 2 3 3 3 4 i o b u s 1 5 i o b u s 1 4 i o b u s 1 3 i o b u s 1 2 3 5 3 6 3 7 3 8 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 4 1 4 2 4 3 4 4 i o b u s 2 3 i o b u s 2 2 i o b u s 2 1 i o b u s 2 0 4 5 4 6 4 7 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 4 8 l p l g n d 1 v r e g i n v c c p l l i n 15 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.9 vnc2 schematic symbol 64 pin figure 3 . 9 schematic s ymbol 64 pin v c c i o v c c i o v c c i o 3 4 3 3 8 u s b 1 d p u s b 1 d m r e s e t # p r o g # v r e g o u t t e s t u s b 2 d p u s b 2 d m 4 5 x t i n x t o u t v n c 2 6 4 p i n 7 1 0 9 3 7 3 6 5 4 3 8 2 1 2 3 n g n d g n d g d g n d 5 3 3 5 3 0 6 1 1 1 2 1 3 1 4 i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 1 5 1 6 1 7 1 8 i o b u s 7 i o b u s 6 i o b u s 5 i o b u s 4 1 9 2 0 2 2 2 3 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 2 4 2 5 2 6 2 7 i o b u s 1 5 i o b u s 1 4 i o b u s 1 3 i o b u s 1 2 2 8 2 9 3 1 3 2 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 3 9 4 0 4 1 4 2 i o b u s 2 3 i o b u s 2 2 i o b u s 2 1 i o b u s 2 0 4 3 4 4 4 5 4 6 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 4 7 4 8 4 9 5 0 i o b u s 3 1 i o b u s 3 0 i o b u s 2 9 i o b u s 2 8 5 1 5 2 5 5 5 6 i o b u s 3 2 i o b u s 3 3 i o b u s 3 4 i o b u s 3 5 6 4 6 3 6 2 6 1 i o b u s 4 0 i o b u s 4 1 i o b u s 4 2 i o b u s 4 3 6 0 5 9 5 8 5 7 i o b u s 3 9 i o b u s 3 8 i o b u s 3 7 i o b u s 3 6 l p l g n d 1 v r e g i n v c c p l l i n 16 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.10 pin configuration usb and power pin no name type description 64 pin 48 pin 32 pin 33 25 17 usb1dp i/o usb host/slave port 1 - usb data signal plus with integrated pull - up/pull - down resistor . 34 26 18 usb1dm i/o usb host/slave port 1 - usb data signal min us with integrated pull - up/pull - down resistor . 36 28 20 usb2dp i/o usb host/slave port 2 - usb data signal plus with integrated pull - up/pull - down resistor . 37 29 21 usb2dm i/o usb host/slave port 2 - usb data signal minus with integrated pull - up/pull - dow n resistor . table 3 . 1 usb interface group pin no name type description 64 pin 48 pin 32 pin 1, 30, 35, 53 1, 24, 27, 39 1, 16, 19, 27 gnd pwr device ground supply pins . 2 2 2 3.3v vregin pwr +3.3v supp ly to the regulator . 3 3 * 3 1.8 v vcc pll in pwr +1.8 v supply to the internal clock multiplier. this pin requires a 100nf decoupling capacitor . * 48 pin lqfp package only C this power input is internally connected to vreg_out. all other packages need this pin connected to a 1.8v power source. most common applications will connect this to vreg_out. 6 6 6 gnd pll pwr device analogue ground supply for internal clock multiplier . 7 7 * 7 vreg out output 1.8v output from regulator to device core * n/c on 48 pin lqfp package only. all other packackages will typically need to connect pins 7 and 3. 21, 38, 54 17, 30, 40 13, 22 , 28 vccio pwr +3.3v supply to the input / output . interface pins ( iobus) . leaving the vccio unconnected will lead to unpredicta ble operation on the interface pins. table 3 . 2 power and ground 17 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.11 miscellaneous signal s pin no name type description 64 pin 48 pin 32 pin 4 4 4 xtin input input to 12mhz oscillator cell. connect 12mhz c rystal across pins 4 and 5 . 5 5 5 xtout output output from 12mhz oscillator cell. connect 12mhz crystal across pins 4 and 5 . 8 8 8 test input test input. must be tied to gnd for normal operation . 9 9 10 reset# input can be used by an external device to reset vnc2 . 10 10 9 prog# input asserting prog# on its own enables programming mode. table 3 . 3 miscellaneous signal group note 1 : # is used to indicate an active low signal. note 2: pin 8, 9 and 1 0 are 5v safe inputs 18 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 3.12 pin configuration input / output vnc2 has multiple interfaces available for connecting to external devices . these are uart, fifo , spi slave , spi master, gpio and pwm. the i nte rface i / o multiplexer is used to share the available i / o pins between each peripheral. vnc2 is configured with default settings for the i/o pins however they can be easily changed to suit the needs of a designer . this is explained in s ection 5 C i/o mul tiplexer. d ef ault configuration for each package type is shown in table 3 . 4 - default i/o configuration . the signal names are also indicated for the vnc1l device as it is pin - compatible with the 48 pin lqfp vnc2 device. note: the default value of the pin s listed in the following table are only available when the i/o mux is enabled. a blank vnc2 chip defaults to all i/o pins as inputs. pin no name (vinc1 - l) 64 pin default 48 pin default 32 pin default t ype description 64 pin 48 pin 32 pin 11 11 11 iobus0 (bdbus0) debug_if debug_if debug_if i/o gpio 12 12 12 iobus1 (bdbus1) input pwm[1] gpio[ a 1] i/o gpio 13 13 14 iobus2 (bdbus2) input pwm[2] gpio[ a 2] i/o gpio 14 14 15 iobus3 (bdbus3) input pwm[ 3] gpio[ a 3] i/o gpio 15 15 23 iobus4 (bdbus4) fifo_data[0] spi_s0_clk uart_txd i/o gpio 16 16 24 iobus5 (bdbus5) fifo_data[1] spi_s0_mosi uart_rxd i/o gpio 17 18 25 iobus6 (bdbus6) fifo_data[2] spi_s0_miso uart_rts# i/o gpio 18 19 26 iobus7 (bdbus7) fi fo_data[3] spi_s0 _ss# uart_cts# i/o gpio 19 20 29 iobus8 (bcbus0) fifo_data[4] spi_m_clk spi_s0_clk i/o gpio 20 21 30 iobus9 (bcbus1) fifo_data[5] spi_m_mosi spi_s0_mosi i/o gpio 22 22 31 iobus10 (bcbus2) fifo_data[6] spi_m_miso spi_s0_miso i/o gpio 2 3 23 32 iobus11 (bcbus3) fifo_data[7] spi_m_s s _0 # spi_s0 _ss# i/o gpio 24 31 - iobus12 (adbus0) fifo_rxf# uart_txd i/o gpio 25 32 - iobus13 (adbus1) fifo_txe# uart_rxd i/o gpio 26 33 - iobus14 (adbus2) fifo_rd# uart_rts# i/o gpio 19 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 pin no name (vinc1 - l) 64 pin default 48 pin default 32 pin default t ype description 64 pin 48 pin 32 pin 27 34 - iobus15 (adb us3) fifo_wr# uart_cts# i/o gpio 28 35 - iobus16 (adbus4) fifo_oe# uart_dtr# i/o gpio 29 36 - iobus17 (adbus5) input uart_dsr# i/o gpio 31 37 - iobus18 (adbus6) input uart_dcd# i/o gpio 32 38 - iobus19 (adbus7) input uart_ri# i/o gpio 39 41 - iob us20 (acbus0) uart_txd uart_tx_active i/o gpio 40 42 - iobus21 (acbus1) uart_rxd gpio[ a 5] i/o gpio 41 43 - iobus22 (acbus2) uart_rts# gpio[ a 6] i/o gpio 42 44 - iobus23 (acbus3) uart_cts# gpio[ a 7] i/o gpio 43 45 - iobus24 (acbus4) uart_dtr# gpio[ a 0] i/o gpio 44 46 - iobus25 (acbus5) uart_dsr# gpio[ a 1] i/o gpio 45 47 - iobus26 (acbus6) uart_dcd# gpio[ a 2] i/o gpio 46 48 - iobus27 (acbus7) uart_ri# gpio[ a 3] i/o gpio 47 - - iobus28 uart_tx_active i/o gpio 48 - - iobus29 input i/o gpio 49 - - iobus30 input i/o gpio 50 - - iobus31 input i/o gpio 51 - - iobus32 spi_s0_clk i/o gpio 52 - - iobus33 spi_s0_mosi i/o gpio 55 - - iobus34 spi_s0_miso i/o gpio 56 - - iobus35 spi_s0 _ss# i/o gpio 57 - - iobus36 spi_s1_clk i/o gpio 20 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 pin no name (vinc1 - l) 64 pin default 48 pin default 32 pin default t ype description 64 pin 48 pin 32 pin 58 - - iobus37 spi_s1_mosi i/o gpio 59 - - iobus38 spi_s1_miso i/o gpio 60 - - iobus39 spi_s1 _ss# i/o gpio 61 - - iobus40 spi_m_clk i/o gpio 62 - - iobus41 spi_m_mosi i/o gpio 63 - - iobus42 spi_m_miso i/o gpio 64 - - iobus43 spi_m _s s _0 # i /o gpio table 3 . 4 default i/o configuration note: all gpio are 5v safe inputs 21 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 4 function description vnc2 is the second of ftdi s vinculum family of embedded usb host controller integrated circuit devices. vnc2 can encapsulate certain usb device classes by handling the usb host interface and data transfer functions using the in - built e mcu and embedded flash memory. when interfacing to mass storage devices, such as usb flash drives, vnc2 transparently handles the fat file s tructure using a simple to implement command set. vnc2 provides a cost effective solution for introducing usb host capability into products that previously did not have the hardware resources to do so. vnc2 has an associated software develop ment tool suite to allow users to create customised firmware . 4.1 key features vnc2 is a programmable soc device with a powerful embedded microprocesso r core and dual usb int erfaces , large ram and flash capacity and the ability to develop and customise firmwa re using the vnc2 t oolchain. vnc2 has an enhanced featu re list over and above vnc1l , however the 48 pin lqfp package is backwa rd compatible with the vnc1l . 4.2 functional block descriptions the following paragraphs de scribe each function within vnc2 . please refer to the block diagram shown in figure 2 . 1 4.2.1 embedded cpu the p rocessor core is based on ftdi s proprietary 16 - bit embedded mcu architecture. the e mcu has a harvard architect ure with separate code and data space. 4.2.2 flash module vnc2 has 256k bytes ( 128k x 16 - bits) of embedded flash (e - flash) memory. no special programming voltages are necessary for programming the onboard e - flash as these are provided internally on - chip. 4.2.3 fla sh programming module the purpose of the flash programmer module is to perform all necessary operations for programming the flash, from general usage to first power o n sequencing. this block is responsible for handling device f irmware upgrade s which can be accessed by the d ebugger interface, a usb cable or flash drive interface. 22 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 4.2.4 input / output multiplexer module vnc2 peripheral interfaces are uart, spi slave 0, spi slave1, spi master, fifo - asynchronous , fifo - synchronous, gpio, debug interface and pwm. t he i/o multiplexer allows the designer to select which peripherals are connected to the device i/o pins. the selectable peripheral interfaces are only limited by the number of i/o pins available. all peripheral s are available across the package range excep t synchronous fifo mode which cannot be selected on 32 pin packages. the available configurable i/o pins per package are as follows: 32 pin package C 12 i/o pins 48 pin package C 28 i/o pins 64 pin package C 44 i/o pins table 4 . 1 lists the peripherals which can be multiplexed to i/o and the maximum number of pins required for each one . the designer can choose any mix of peripheral configurations as long as they are within the specific package i/o pin co unt . depending on the design not all 9 uart pins need to be configured . similarly the gipo peripheral does not need all pins configured. e.g. the 48 pin package has 28 i/o pins which could be configured as uart C 9 pins, spi master C 5 pins, fifo asynchro nous C 12 pins and gpio C 2 pins. this makes a total of 28 pins. please refer to section 5 for a detailed description of the i/o multiplexer. peripherals maximum pins required uart 9 spi slave 0 4 spi slave 1 4 spi master 5 fifo asynchronous 12 fifo synchronous 14 gpio 4 0 debug 1 pwm 8 table 4 . 1 - peripheral pin requirements 23 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 4.2.5 peripheral dma m odule s 0, 1, 2 & 3 the peripheral dma has the capability to transfer data to and from an i/o device. the cpu can offload the transfer of data between the processor and the peripheral freeing the cpu to execute other instructions. the dma module collect s or transmits data from memory to an i / o address space, it i s also capable of copying data in memory and transferring it to another location. the dma is not accessible by the user as it automatically controlled by the cpu. 4.2.6 ram module the ram module consist s of 16k bytes on - chip ( 4k x 32 - bits) data memory. the ra m is byte addressable. 4.2.7 peripheral interface modules vnc2 has nine peripheral interface modules. full descriptions of each module are described in section 6 . debugger interface uart pwm fifo spi master spi sla ve 0 & 1 gpio - general purpose i/o pins general purpose timers 4.2.8 usb transceivers 0 and 1 t wo usb transceiver cells provide the physical usb device interface supporting usb 1.1 and usb 2.0 standards. low - speed and full - speed usb data rates are supported. each output driver provide s + 3.3v level slew rate control signalling, whilst a differential receiver and two single ended receivers provide usb data in , se 0 and usb reset condition detecti on. these cells also include integrated internal usb pull - up or pull - down resistors as required for host or slave mode. 4.2.9 usb host / device controllers t hese blocks handle the parallel - to - serial and serial - to - parallel conversion of the usb p hysical layer . this includ es bit stuffing , crc generation, usb frame generation and protocol error checking. the host / device controller is autonomous and therefore requires limited load from the cpu. 4.2.10 12mhz oscillator the 12mhz oscillator cell generates a 12mhz reference clock input to the clock multiplier pll from an external 12mhz cr ystal. the external crystal is connected across pin 4 C xtin and pin 5 C xtout in the configuration shown in figure 10 . 1 . 4.2.11 power saving modes and standby mode. vnc2 can be set to operate in three frequen cies allowing the user to select a slo wer speed to reduce power consumption . three operating frequencies available are 12mhz, 24mhz and normal operation of 48mhz. these operating modes can be configured using the rtos. full details are available in the rt os manual available from the ftdi website . when a particular peripheral is not used, it is powered down internally thus saving power. standby mode is available under firmware control, this mode puts the vnc2 in a stat e with no clocks running or system blocks powered. the device will wake up out of this mode by toggling any of the following signals : usb0/1 dp or dm , spi slave 0 select ( spi_s0_ss# ), spi slave 1select( spi_s1_ss# ) or uart ring indicator ( uart_ri# ). 24 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5 i/o multiplexer ftdi devices typically have multiple interfaces available to communicate with external devices. vnc2 has uart, spi slave 0, spi slave1, spi master, fifo, gpio, and pwm peripherals. the available packages for vnc2 provide any of these interfaces to be active on the available pins through the use of an i/o multiplexer. table 5 . 1 lists the signals available f or each peripheral . table 5 . 2 to 12 expla in the use of the i/o multiplexer. multiplexers are used to connect the vnc2 peripherals to the external iobus pins. this enables the designer to select which iobus pins he wishes to map a particular peripheral to. peripheral signals are allocated to one of four groups, which connect to the i/o multiplexer. each i/o peripheral signal can connect to one out of every four external iobus pins. the iobus pin that a peripheral signal can connect to is dictated by the peripheral signal?s group. for example, if a peripheral signal is allocated to group 0 then it can connect to iobus0, iobus4, iobus8, iobus12 and so on. if a peripheral signal is allocated to group 1 then it can connect to iobus1, iobus5, iobus9, iobus13 and so on. fig ure 5 . 1 details the i/o multiplexer concept, where, for example, a white peripheral signal can connect to any white iobus pin, a green peripheral signal can connect to a green iobus pin. figure 5 . 2 , figure 5 . 3 and figure 5 . 4 give examples of connecting peripheral signals to differing iobus pins. the io multiplexer also provides the following features: ability to configure an i/o pad as an input, output or bidirectional pad. at power on reset, all pins are set as inputs by default. whenever the i/o mux is enabled the pins are configured as their default values listed table 6 with in section 3.12 . note: it is recommended not to reassign the debug interface signal (debug_if) from its default setting of iobus0 (pin 11 on all packages). this assumes that the debug pin is required in the application design, if not, pin 11 can be assigned to any other group 0 signal. an application (iomux) within the rtos is available to aid with pin configuration, section 5.2 has more details. further detai ls of the io m ultiplexer are available within application note an_139 vinculum - ii io mux explained . 25 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 fig ure 5 . 1 iobus to group r elationship - 64 p in i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 i o b u s 2 0 i o b u s 2 1 i o b u s 4 3 u a r t _ t x d u a r t _ r x d u a r t _ r t s # u a r t _ c t s # u a r t _ d t r # u a r t _ d s r # u a r t _ d c d # u a r t _ r i # u a r t _ t x _ a c t i v e p e r i p h e r a l p i n i o b u s p i n g r o u p 0 a l l o c a t e d p i n g r o u p 1 a l l o c a t e d p i n g r o u p 2 a l l o c a t e d p i n g r o u p 3 a l l o c a t e d p i n k e y : 26 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 5 . 2 details the uart, spi slave0 and spi master connecting to iobus pins: figure 5 . 2 iobus to uart, spi slave0 and spi master example i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 i o b u s 2 0 i o b u s 2 1 i o b u s 2 2 i o b u s 2 3 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 i o b u s 2 8 i o b u s 2 9 i o b u s 3 0 i o b u s 3 1 i o b u s 4 3 u a r t _ t x d u a r t _ r x d u a r t _ r t s # u a r t _ c t s # u a r t _ d t r # u a r t _ d s r # u a r t _ d c d # u a r t _ r i # u a r t _ t x _ a c t i v e s p i _ s 0 _ c l k s p i _ s 0 _ m o s i s p i _ s 0 _ m i s o s p i _ s 0 _ s s # s p i _ s 1 _ c l k s p i _ s 1 _ m o s i s p i _ s 1 _ m i s o s p i _ s 1 _ s s # s p i _ m _ c l k s p i _ m _ m o s i s p i _ m _ m i s o s p i _ m _ s s _ 0 # s p i _ m _ s s _ 1 # p e r i p h e r a l p i n i o b u s p i n g p i o [ a 0 ] g p i o [ a 1 ] g p i o [ a 2 ] g p i o [ a 3 ] g p i o [ a 4 ] g p i o [ a 5 ] g p i o [ a 6 ] g p i o [ a 7 ] g p i o [ e 7 ] 27 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 5 . 3 expands upon figure 5 . 2 by moving the uart, spi slave0 and spi master signals to differing iobus positions. the purpose of this diagram to highlight peripherals connected to differing iobus positions. figure 5 . 3 iobus to uart, spi slave0 and spi master second example i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 i o b u s 2 0 i o b u s 2 1 i o b u s 2 2 i o b u s 2 3 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 i o b u s 2 8 i o b u s 2 9 i o b u s 3 0 i o b u s 3 1 i o b u s 4 3 u a r t _ t x d u a r t _ r x d u a r t _ r t s # u a r t _ c t s # u a r t _ d t r # u a r t _ d s r # u a r t _ d c d # u a r t _ r i # u a r t _ t x _ a c t i v e s p i _ s 0 _ c l k s p i _ s 0 _ m o s i s p i _ s 0 _ m i s o s p i _ s 0 _ s s # s p i _ s 1 _ c l k s p i _ s 1 _ m o s i s p i _ s 1 _ m i s o s p i _ s 1 _ s s # s p i _ m _ c l k s p i _ m _ m o s i s p i _ m _ m i s o s p i _ m _ s s _ 0 # s p i _ m _ s s _ 1 # p e r i p h e r a l p i n i o b u s p i n g p i o [ a 0 ] g p i o [ a 1 ] g p i o [ a 2 ] g p i o [ a 3 ] g p i o [ a 4 ] g p i o [ a 5 ] g p i o [ a 6 ] g p i o [ a 7 ] g p i o [ e 7 ] 28 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 with reference to figure 5 . 3 , it can be seen that iobus9 - 11 and iobus16 - 19 were unused. figure 5 . 4 expands upon the previous two figures to detail a fully occupied iobus, up to and including iobus19. the gaps at iobus9 - 11 have been filed with 3 gpio pins, the gaps at iobus16 - 19 have been filled with the second spi slave and a furthe r 3 iobus pins (17 - 19) have been allocated to 3 gpio pins. note that gpio pins a 0 and a 4 are unused as a sufficient gap wasn't available. figure 5 . 4 iobus to uart, spi slave0 and spi master third example i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 i o b u s 4 i o b u s 5 i o b u s 6 i o b u s 7 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 i o b u s 1 2 i o b u s 1 3 i o b u s 1 4 i o b u s 1 5 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 i o b u s 2 0 i o b u s 2 1 i o b u s 2 2 i o b u s 2 3 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 i o b u s 2 8 i o b u s 2 9 i o b u s 3 0 i o b u s 3 1 i o b u s 4 3 u a r t _ t x d u a r t _ r x d u a r t _ r t s # u a r t _ c t s # u a r t _ d t r # u a r t _ d s r # u a r t _ d c d # u a r t _ r i # u a r t _ t x _ a c t i v e s p i _ s 0 _ c l k s p i _ s 0 _ m o s i s p i _ s 0 _ m i s o s p i _ s 0 _ s s # s p i _ s 1 _ c l k s p i _ s 1 _ m o s i s p i _ s 1 _ m i s o s p i _ s 1 _ s s # s p i _ m _ c l k s p i _ m _ m o s i s p i _ m _ m i s o s p i _ m _ s s _ 0 # s p i _ m _ s s _ 1 # g p i o [ a 0 ] g p i o [ a 1 ] g p i o [ a 2 ] g p i o [ a 3 ] g p i o [ a 4 ] g p i o [ a 5 ] g p i o [ a 6 ] g p i o [ a 7 ] g p i o [ e 7 ] p e r i p h e r a l p i n i o b u s p i n 29 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5.1 i/o peripherals signal names peripheral signal name outputs inputs description debugger debug_if 1 1 debugger interface uart uart_txd 1 0 transmit a synchronous data output uart_rts # 1 0 request to send control o utput uart_ dtr # 1 0 data acknowledge (data terminal ready control) o utput uart_tx_active 1 0 enable transmit d ata for rs485 designs uart_rxd 0 1 receive asynchronous data input uart_cts # 0 1 clear to send control i nput uart_dsr # 0 1 data request (data set rea dy control) i nput uart_ri# 0 1 ring indicator control i nput uart_dcd# 0 1 data carrier detect control i nput fifo fifo_data 8 8 fifo data bus fifo_txe# 1 0 when high, do not write data into the fifo. when low, data can be written into the fifo by str obing wr high, then low. fifo_rxf# 1 0 when high, do not read data from the fifo. when low, there is data available in the fifo which can be read by strobing rd# low, then high. fifo_wr# 0 1 writes the data byte on the d0...d7 pins into the transmit fi fo buffer when wr goes from high to low. fifo_rd# 0 1 enables the current fifo data byte on d0...d7 when low. fetches the next fifo data byte (if available) from the receive fifo buffer when rd# goes from high to low fifo_oe# 0 1 fifo output enable C s ynchronous fifo only fifo_clkout 0 1 fifo clock out C synchronous fifo only gpio gpio 4 0 4 0 general purpose i/o spi slave 0 spi_s0_clk 0 1 spi c lock input C slave 0 spi_s0 _ss# 0 1 spi chip select i nput C slave 0 spi_s0_mosi 1 1 spi master o ut s eria l i n C slave 0 spi_s0_miso 1 0 spi m aster in slave o ut C slave 0 spi slave 1 spi_s1_clk 0 1 spi c lock input C slave 1 spi_s1 _ss# 0 1 spi chip select i nput C slave 1 spi_s1_mosi 1 1 master out slave i n C slave 1 spi_s1_miso 1 0 master in s lave out C slave 1 spi master spi_m_clk 1 0 spi clock input C master spi_m_mosi 1 1 master out slave in - master spi_m_miso 0 1 master in slave out - master spi_m_ss_0# 1 0 active low slave select 0 from master to slave 0 spi_m_ss_1# 1 0 active low slave s elect 1 from master to slave 1 pwm pwm 8 0 pulse width modulation table 5 . 1 i / o peripherals signal names note: # is used to indicate an active low signal. 30 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5.2 i/o mu ltiplexer configuration the vnc2 i/o m ultiplexer allows signals to be routed to different pins on the device . to simplify the routing of signals, the vnc2 rtos provides an utility ( iomux ) to configure the i/o multiplexer as the designer requires. the iomux is fully integrated into the vnc2 id e (integrated development environment) which is available to download : vinculum - ii toolchain . a screenshot of the iomux utility is shown in figure 5.5 below. the iomux utility user guide is available to download: vinculum - ii io_mux configuration utility user guide the following tables provide a lo okup guide to determine what signals are available and the list of pins that can be used: table 5 . 2 group 0 table 5 . 3 group 1 table 5 . 4 group 2 table 5 . 5 group 3 each vnc2 has a default state of iobus signals following a hard reset. t he number of i/o pins available are de termined by the package size: package 32pin (lqfp & qfn) - twelve i/o pins C iobus0 to iobus11 package 48pin (lqfp & qfn) - twenty eight i/o pins C iobus0 to iobus27 package 64pin (lqfp & qfn) - forty - four i/o pins C iobus0 to iobus43 section 3.12 shows the default signal settings for all three package sizes. figure 5 . 5 vnc2 toolchain app wizard showing iomux configuration 5.3 i/o mux group 0 31 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 available input sign als available output signals 64 pin package available pins 48 pin package available pins 32 pin package available pins debug_if fifo_data[0] fifo_data[4] fifo_oe # spi_s0_clk spi_s1_clk gpio[ a 0] gpio[ a 4] gpio[ b 0 ] gpio[ b 4 ] gpio[ c 0 ] gpio[ c 4 ] gpio[ d 0 ] gpio[ d 4 ] gpio[ e 0 ] gpio[ e 4 ] debug_if uart_txd uart_dtr # uart_tx_active fifo_data[0] fifo_data[4] fifo_rxf # pwm[0] pwm[4] spi_m_clk spi_m _s s_1# gpio[a0] gpio[a4] gpio[b0] gpio[b4] gpio[c0] gpio[c4] gpio[d0] gpio[d4] gpio[e0] gpio[e4] 11, 15, 19, 24, 28, 39, 43, 4 7, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 table 5 . 2 group 0 table 5 . 2 - input and output signals that are available for all the iobus pins that are in group 0. for example i f using the 48 pin package dev ice this would allow pins 11, 15, 20, 31, 35, 41 and 45 to be configured as either an input signal (listed in the first column) or a output signal (listed in the second column). 5.4 i/o mux group 1 32 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 available input signals available output signals 64 pin package available pins 48 pin package available pins 32 pin package available pins uart_rxd uart_dsr # fifo_data[1] fifo_data[5] spi_s0_mosi spi_s1_mosi gpio[ a 1] gpio[ a 5] gpio[ b 1 ] gpio[ b 5 ] gpio[ c 1 ] gpio[ c 5 ] gpio[ d 1 ] gpio[ d 5 ] gpio[ e 1 ] gpio[ e 5 ] fifo_data[1] fifo_data[5] fifo_txe # pwm[1] pwm[5] spi_s0_mosi spi_s1_mosi spi_m_mosi fifo_clkout gpio[a1] gpio[a5] gpio[b1] gpio[b5] gpio[c1] gpio[c5] gpio[d1] gpio[d5] gpio[e1] gpio[e5] 12, 16, 20, 25, 29, 40 , 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 table 5 . 3 group 1 table 5 . 3 - input and output signals that are available for all the iobus pins that are in group 1. for example i f using the 64 pin package dev ice this would allow pins 12, 16, 20, 25, 29, 40, 44, 48, 52, 58 and 62 to be configured as either an input signal (listed in the first column) or a output signal (listed in the second column) . 5.5 i/o mux group 2 33 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 available input signals available output signals 64 pin package available pins 48 pin package available pins 32 pin package available pins uart_dcd# fifo_data[2] fifo_data[6] fifo_rd # spi_m_miso gpio[ a 2] gpio[ a 6] gpio[ b 2 ] gpio[ b 6 ] gpio[ c 2 ] gpio[ c 6 ] gpio[ d 2 ] gpio[ d 6 ] gpio[ e 2 ] gpio[ e 6 ] uart_rts # fifo_data[2] fifo_data[6] pwm[2] pwm[6] spi_s0_miso spi_s1_miso gpio[a2] gpio[a6] gpio[b2] gpio[b6] gpio[c2] gpio[c6] gpio[d2] gpio[d6] gpio[e2] gpio[e6] 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 table 5 . 4 group 2 table 5 . 4 - input and output signals that are available for all the iobus pins that are in group 2. for example i f using the 32 pin package dev ice this would allow pins 14, 25 and 31 to be configured as either an input signal (listed in the first column) or a output signal (listed in the second column). 34 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5.6 i/o mux group 3 available input signals available output signals 64 pin package available pins 48 pin package available pins 32 pin package available pins uart_cts # uart_ri# fifo_data[3] fifo_data[7] fifo_wr # spi_s0 _ss# spi_s1 _ss# gpio[ a 3] gpio[ a 7] gpio[ b 3 ] gpio[ b 7 ] gpio [ c 3 ] gpio[ c 7 ] gpio[ d 3 ] gpio[ d 7 ] gpio[ e 3 ] gpio[ e 7 ] fifo_data[3] fifo_data[7] pwm[3] pwm[7] spi_m _s s_0# gpio[a3] gpio[a7] gpio[b3] gpio[b7] gpio[c3] gpio[c7] gpio[d3] gpio[d7] gpio[e3] gpio[e7] 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 4 4, 48 15, 26, 32 table 5 . 5 group 3 table 5 . 5 - input and output signals that are available for all the iobus pins that are in group 3. for example i f you us ing the 48 pin package dev ice this would allow pins 14, 19, 23, 34, 38, 44 and 48 to be configured as either an input signal ( listed in the first column ) or a output signal ( listed in the second column ) . 35 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 5.7 i/o mux interface c onfiguration exam ple this example shows how to set a uart interface on the vnc2 64 pin package. the uart is made up of two output signals ( uart_txd and uart_rts # ) and two input signals (uart_rxd and uart_cts # ). for pcb design it is best to have the four p ins of the uart in terface adjacent to each other. this can be achieved easily since the four signals are members of each different groups . fig ure 5 . 1 clearly shows that the four groups are adjacent to each other. so the fo ur adjacent pins can be used for the uart interface as long as they are selected one from each of the four groups. tables 9, 10, 11 & 12 can now be used to select where the uart interface can be placed. figure 5 . 6 shows the four uart signal selected on pins 11, 12, 13 & 14 however they could have been selected on any of the other four pins highlighted in blue dashed lines . figure 5 . 6 uart example 64 pin v c c i o v c c i o v c c i o v c c p v c c 3 4 3 3 8 u s b 1 d p u s b 1 d m r e s e t # p r o g # v r e g o u t t e s t u s b 2 d p u s b 2 d m 4 5 x t i n x t o u t v n c 2 6 4 p i n 7 1 0 9 3 7 3 6 5 4 3 8 2 1 2 3 n g n d g n d g d g n d 5 3 3 5 3 0 6 1 1 1 2 1 3 1 4 i o b u s 0 i o b u s 1 i o b u s 2 i o b u s 3 1 5 1 6 1 7 1 8 i o b u s 7 i o b u s 6 i o b u s 5 i o b u s 4 1 9 2 0 2 2 2 3 i o b u s 8 i o b u s 9 i o b u s 1 0 i o b u s 1 1 2 4 2 5 2 6 2 7 i o b u s 1 5 i o b u s 1 4 i o b u s 1 3 i o b u s 1 2 2 8 2 9 3 1 3 2 i o b u s 1 6 i o b u s 1 7 i o b u s 1 8 i o b u s 1 9 3 9 4 0 4 1 4 2 i o b u s 2 3 i o b u s 2 2 i o b u s 2 1 i o b u s 2 0 4 3 4 4 4 5 4 6 i o b u s 2 4 i o b u s 2 5 i o b u s 2 6 i o b u s 2 7 4 7 4 8 4 9 5 0 i o b u s 3 1 i o b u s 3 0 i o b u s 2 9 i o b u s 2 8 5 1 5 2 5 5 5 6 i o b u s 3 2 i o b u s 3 3 i o b u s 3 4 i o b u s 3 5 6 4 6 3 6 2 6 1 i o b u s 4 0 i o b u s 4 1 i o b u s 4 2 i o b u s 4 3 6 0 5 9 5 8 5 7 i o b u s 3 9 i o b u s 3 8 i o b u s 3 7 i o b u s 3 6 l p l g n d 1 l l u a r t _ t x d C g r o u p 0 u a r t _ c t s # C g r o u p 3 u a r t _ r t s # C g r o u p 2 u a r t _ r x d C g r o u p 1 36 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6 peripheral interfaces in addition to the two usb host and slave blocks, vnc2 contains the following peripheral interfaces: universal asynchronous receiver transmitter (uart) two serial peripheral interface (spi) slaves spi master debugger interface parallel fifo interface (245 mode and synchronous fifo mode ) general purpose timers eight pulse width modulation blocks (pwm) general purpose input output (gpio) the following sections describe each peripheral in detail. 6.1 uart interfac e when the data and control bus are configured in uart mode, the interface implements a standard asynchronous serial uart port with flow control , for example rs232/422/485 . the uart can support b aud rates from 183 baud to 6 m baud . the maximum uart speed is determined by the cpu speed/ 8 . the cpu can be run at three frequecies, therefore the following maximum rates apply: cpu frequecy maximum uart speed 48 mhz 6 mbaud 24 mhz 3 mbaud 12 mhz 1.5 mbaud data transfer uses nrz (non - return to zer o) data for mat consisting of 1 s tart bit, 7 or 8 data bits, an optio nal parity bit, and one or two s top bits. when transmitting the data bits, the least significant bit is transmitted first. transmit and receive waveforms are illustrated in figure 6 . 1 and figure 6 . 2 : figure 6 . 1 uart receive waveform figure 6 . 2 uart t ransmit waveform baud rate (default =9600 baud) , flow control settings (default = rts/cts) , number of data bits (default=8) , parity (default is no parity) and number of s top bits (default=1) are all configurable using the firmware command interface. please refer to http://www.ftdichip.com . uart_tx_active is transmit enable, this output may be used in rs485 designs to control the transmit of the line driver. 37 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.1.1 uart mode signal descriptions 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 uart_txd output transmit asynchronous data output 12, 16, 20, 25, 29, 40, 44, 48, 52, 58, 62 12 ,16, 21, 32, 36, 42, 46 12, 24, 30 uart_rxd input receive asynchronous data input 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 uart_rts # output request to send c ontrol o utput 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 uart_cts # input clear to send c o ntrol i nput 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 uart_dtr # output data acknowledge (data terminal ready control) o utput 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 uart_dcd# input data carrier detect control i nput 38 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 uart_ri# input ring indicator is used to wake vnc2 depending o n firmware 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 uart_tx_active output enable transmit d ata for rs485 designs . t his signal may be used to signal that a transmit operation is in progress. the uart_tx_active signal will be set high one bit - time before data is transmitted and return low one bit time after the last bit of a data frame has been transmitted. table 6 . 1 data and control bus signal mode options C uart interfac e the uart signals can be programmed to a choice of i/o pins depending on the package size. table 6 . 1 details the available pins for each of the uart signals. further details on the configuration of inpu t and output signals are available in s ection 5 - i/o multiplexer . 39 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.2 serial peripheral interface C spi modes the serial peripheral interface bus is an industry standard communications interface. dev ices communicate in master / slave mode, with the master initiating the data transfer. vnc2 has one master module and two slave modules. each spi slave module has four si gnals C clock, slave select, mosi (master out C slave in) and miso (master in C slave out) . the spi master has the same four signals as the slave modules but with one additional signal because it requires a slave select for the second slave module. table 6 . 2 lists how the signals are named in each module. the spi master clock can operate up to one half of the cpu system clock depending on what power mode the device is set to: normal power mode 48 mhz would set the spi maximum clock to 2 4 m h z low power mode 24 mhz would set the spi maximum cloc k to 12 m h z lowest power mode 12mhz would set the spi maximum clock to 6 h mz module signal name type description spi slave 0 spi_s0_clk input clock input C slave 0 spi_s0 _ss# input active low c hip select input C slave 0 spi_s0_mosi input master out ser ial in C slave 0 spi_s0_miso output master in slave out C slave 0 spi slave 1 spi_s1_clk input clock input C slave 1 spi_s1 _ss# input active low c hip select input C slave 1 spi_s1_mosi input master out slave in C slave 1 spi_s1_miso output master in slave out C slave 1 spi master spi_m_clk out put clock out put C master spi_m_mosi output master out slave in - master spi_m_miso input master in slave out - master spi_m _s s_0# output active low slave select 0 from master to slave 0 spi_m _s s_1# o utput active low slave select 1 from master to slave 1 table 6 . 2 spi signal names the spi slave protocol by default does not support any form of handshaking . ftdi have added extra modes to support handshaking , faster throughput of data and reduced pin c ount. there are 5 modes ( table 15) of operation in the vnc2 spi slave. full duplex C section 0 half duplex, 4 pin - section 6.3.3 half duplex, 3 pin - section 6.3.4 unmanaged - section 6.3.5 vnc1l legacy mode C section 6.3.6 40 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 mode pins word size handshaking speed comments vnc1l 4 12 yes read 66% write 66% legacy mode full duplex 4 8 yes read 50% write 100% half duplex 4 pin 4 8 yes read 100% write 100% mosi becomes bi - directional half duplex 3 pin 3 8 yes read 50% write 50% mosi becomes bi - directional unman aged 4 8 no read 100% write 100% table 6 . 3 - spi slave speeds vnc2 spi master is described in section 6.4.1 spi master signal descriptions. table 6 . 5 shows the spi master signals and the available pins that they can be mapped to depending o n the package size. further details on the configuration of input and output signals are available in s ection 5 - i/o multiplexer . 6.2.1 spi clock phase modes spi interface has 4 unique modes of clock pha se (cpha) and clock polarity (cpol), known as mode 0, mode 1, mode 2 and mode 3. table 6 . 4 summarizes these modes and available interface and figure 6 . 3 is the function timing diagram. for cpol = 0, the base (inactive) level of sclk is 0. in this mode: when cpha = 0, data is clocked in on the rising edge of sclk, and data is clocked out on the falling edge of sclk. when cpha = 1, data is clocked in on th e falling edge of sclk, and data is clocked out on the rising edge of sclk for cpol =1, the base (inactive) level of sclk is 1. in this mode: when cpha = 0, data v in on the falling edge of sclk, and data is clocked out on the rising edge of sclk when c pha =1, data is clocked in on the rising edge of sclk, and data is clocked out on the falling edge of sclk. mode cpol cpha full duplex half duplex 4 pin half duplex 3 pin unmanged vnc1l legacy 0 0 0 n n n y n 1 0 1 y y y y n 2 1 0 n n n y n 3 1 1 y y y y n table 6 . 4 - clock phase/polarity modes 41 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 6 . 3 - spi cpol cpha f unc tion 6.3 serial peripheral interface C slave figure 6 . 4 spi slave block diagram vnc2 has two spi slave modules both of which use four wire interfaces: mosi, miso, clk and ss # . their main purpose is to send data from main memory to the attached spi master, and / or receive data and send it to main memory. the spi slave is controlled by the internal cpu using internal memory mapped i/o registers. it operates from the main system clock, although sampling of input data and transmission of output data is controlled by the spi clock (clk ). an spi transfer can only be initiated by the spi master and begins with the slave select signal being asserted. this is followed by a data byte being clocked ou t with the master supplying clk . the master always supplies the first b yte, which is called a command byte. after this the desired number of data bytes are transferred before the transaction is terminated by the master de - asserting slave select. an spi master is able to abort a transfer a t any time by de - asserting its ss # out put. this will cause the slave to end its current transfer and return to idle state. e x t e r n a l - s p i m a s t e r v n c 2 - s p i s l a v e c l k s s # m i s o m o s i 42 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.1 spi slave signal descriptions 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39, 4 3, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 spi_s0_clk spi_s1_clk input slave clock input 12, 16, 20, 25, 29, 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 spi_s0_mosi spi_s1_mosi input mater out slave in synchronous data from master to slave 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 spi_s0_miso spi_s1_miso output master in slave out synchronous data from slave to master 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 4 4, 48 15, 26, 32 spi_s0 _ss# spi_s1 _ss# input slave chip select table 6 . 5 data and control bus signal mode options - spi slave interface 43 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.2 full duplex in full duplex mode, the spi slave send s data on miso line at the same time as it receives data on mosi . during the command phase this data is always the slave status byte. for a write command, write data can be streamed out of mosi and status can be sent during each write phase from slave to master. as long as the slave status indicates that it can receive more data, the master can continue to stream further write bytes. figure 6 . 5 is an example of this. figure 6 . 5 full duplex data master write when the master is performing a data read, the data and status both need to share the same pin (miso). in this case the master and slave will exchange command and status bytes, followe d by the slave sending its data. if the master keeps ss # active the slave will send a further status byte after the data followed by another data byte. this continues until the master indicates the end of the communications by raising ss #. figure 6 . 6 is an example of this. figure 6 . 6 full duplex data master read s s # m i s o m o s i 8 b i t c m d w 0 w 1 w 2 s t a t u s s t a t u s s t a t u s s t a t u s s s # m i s o m o s i 8 b i t c m d s t a t u s r 0 s t a t u s r 1 44 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 the command and status formats for this mode can be seen in figure 6 . 7 below with a description of each field in table 6 . 6 : command: status: figure 6 . 7 spi command and status structure field description a2:a0 address of slave being used in a multi - slave environment. this would typically be used in the scenario where a shared data bus is used. r/w # set to ?1? for a read and ?0? for a write. z tri - stated. txe transmit empty. when ?1? the slave transmit buffer has no new data to transmit. when ?0? the slave transmit buffer does have new data. rxf receive full. when ?1? the slave receive buffer has new data which has not been re ad yet. when ?0? the slave receive buffer is empty and can be safely written to. ack set to ?1? when a slave has correctly decoded its address. table 6 . 6 spi command and status fields a2 a1 a0 r/w # z z z z z z z z txe rxf ack z 45 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.3 half duplex, 4 pin in half duplex mode, the mosi signal is shared for both master to slave and slave to master communications. when using 4 pins, the miso signal carries the status bits. the master initiates data write transfer, this by asserting ss # and then sending out a comm and byte. this has the same format as that shown in figure 6 . 7 . the slave send s status during this command phase and if this indicates that the slave can accept data the master will follow this up with a byte of write data. if the status continues to indicate that more data can be written, a whole stream of data can be written following one single command. the operation completes when the master raises ss # again . figure 6 . 8 is an example of this. figure 6 . 8 half duplex data master write data reads are similar, apart from the mosi pin changing from slave input to slave output aft er the command phase. figure 6 . 9 is an example. in this diagram, the master drives the command while the slave returns with status. then the mosi buffers are turned round and a stream of read data is sent from the slave to the master on the mosi signal. figure 6 . 9 half duplex data master read s s # m i s o m o s i 8 b i t c m d w 0 w 1 w 2 s t a t u s s t a t u s s t a t u s s t a t u s s s # m i s o m o s i 8 b i t c m d r 0 r 1 r 2 s t a t u s s t a t u s s t a t u s s t a t u s m a s t e r t o s l a v e s l a v e t o m a s t e r 46 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.4 half duplex, 3 pin the 3 pin half duplex mode eliminates the miso pin from the protoco l. this means that status bytes need to be sent on the mosi pin. again the master init iate s a transfer by asserting ss # and sending out a command byte. the slave send s status back to the master. if a write has been requested and the status indicates that t he slave can accept data, mosi should be changed to an out put again and data will be sent from master to slave. following this data, the slave will se nd a further status byte if ss # remains active. if the status indicates that more data can be written, th e next data byte can be sent to the slave and t his process continues until ss # is de - asserted. figure 6 . 10 is an example of this: figure 6 . 10 half duplex 3 - pin data master write data reads are similar expect that after the command byte all data transfer is from slave to master. figure 6 . 11 is an example of this: figure 6 . 11 half duplex 3 - pin data master read s s # m o s i 8 b i t c m d m a s t e r t o s l a v e s t a t u s w 0 s t a t u s w 1 s l a v e t o m a s t e r s l a v e t o m a s t e r m a s t e r t o s l a v e m a s t e r t o s l a v e s s # m o s i 8 b i t c m d m a s t e r t o s l a v e s t a t u s r 0 s t a t u s r 1 s l a v e t o m a s t e r 47 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.5 unmanaged mode the vnc2 spi slave also support s an unmanaged spi mode. this is a simple data exchange be tween master and slave. it operate s in the standard 4 pin mode ( ss #, c l k, mosi and miso) with all transfers controlled by the spi master. when the cpu wants to send da ta out of the spi slave it write s this into the spi_slave_data_tx register. this will then be moved into the transfer shift reg ister to wait for the spi master to request it. the spi maste r will at some point assert ss # and start clocking data on mosi with sck. as this is shifted into the transfer shift register, the spi slave will also be shifting data in the opposite direction o n miso. at the end of the transfer the spi slave copies the received data from the shift register to spi_slave_data_rx as seen in figure 6 . 12 . figure 6 . 12 unmanaged mode transfer diagram s p i c l k d i v 0 1 2 3 4 5 6 7 r x s h i f t r e g i s t e r s p i m a s t e r s p i s l a v e s s # c l k m o s i m i s o 0 1 2 3 4 5 6 7 s h i f t r e g i s t e r 0 1 2 3 4 5 6 7 s h i f t r e g i s t e r 0 1 2 3 4 5 6 7 t x s h i f t r e g i s t e r 48 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.3.6 vnc1l legacy interface vnc2 spi is compatible with the spi slave of vnc1l . this is a custom protocol u sing 4 wires and will be explained here. the master asserts the slave select, but in this case it is an active high signal. following this, a 3 bit command is sent on the mosi pin (see figure 6 . 15 for command structure). this has instructions on whether a read or write is requested and if dat a or status is to be sent. for a data write, 8 bits of data are sent on mosi followed by a status bit being returned on miso. if this bit is ?0? it means the data write was successful. if it is ?1? it means that internal buffer was full and the write shoul d be repeated. finally, the slave select is de - asserted. see figure 6 . 13 for an example of this . figure 6 . 13 vnc1l mode data write data reads are simil ar, with the data from slave to master coming on the miso pin. if the status bit is ?0? it means the data byte sent is new data that has not been read before. if it is ?1? it means that it is old data. see figure 6 . 14 for an example. figure 6 . 14 vnc1l mode data read 49 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 the command and status formats for this mode can be seen in figure 6 . 15 below with a d escrip tion of each field in table 6 . 7 . command: data: status: figure 6 . 15 vnc1l compatible s pi command and status structure field description start driven to ?1?. r/w if set to ?1?, the spi master wishes to read from the slave. if set to ?0?, the spi master wishes to write to the slave. addr if set to ?1?, a read operation will return the st atus byte in the data phase. a write will have no effect. if set to ?0?, a read or a write will operate on the data register. d7:d0 data. status when ?0? this means a read or write was successful. when ?1? it means a read contains old data, or a write di d not work and needs retried. table 6 . 7 spi command and status fields 6.3.6.1 spi setup bit encoding the vnc1l compatible spi interface differs from most other impl ementations in that it uses a 12 clock sequence to t ransfer a single byte of data. in addition to a ?start? state, the spi master must send two setup bits which indicate data direction and target address. the encoding of the setup bits is shown in table 6 . 8 . a single data byte is transmitted in each spi transaction, with the most significant bit transmitted first. after each transaction vnc2 return s a single s tatus b it. this indicates if a data write was successful or a data read was valid. direction (r/w) target address operation meaning 1 0 data read retrieve byte from transmit buffer 1 1 status read read spi interface status 0 0 data write add byte to receive buffer 0 1 n/a n/a table 6 . 8 spi setup bit e ncoding start r/w addr d7 d6 d5 d4 d3 d2 d1 d0 status 50 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 the vnc2 spi i nterface uses 4 signal lines : sclk, ss , mosi and miso . the signals mosi , miso and ss are always clocked on the rising edge of the sclk signal. ss signal must be raised high for the duration of the entire transaction. for data transac tions, the ss must be released for at least one clock cycle after a transaction has completed. it is not necessary to release ss between status read operations. the ?start? state of mosi and ss high on the rising edge of sclk initiates the transfer. the t ransfer finishes after 13 clock cycles, and the next transfer starts when mosi is high during the rising edge of clk. the following figure 6 . 16 and table 6 . 9 give details of the bus timing requirements. figure 6 . 16 spi slave mode timing table 6 . 9 spi sla ve data timing 6.3.6.2 spi master data read transaction in vnc1l legacy mode the spi master must periodically poll for new data in vnc2 transmit buffer. it is recommended that this is done first before sending any command. the start and setup sequence is sent to vnc2 by the spi master , see figure 6 . 17 . the vnc2 clocks out data from its transmit buffer on subsequent rising edge clock cycles provided by the spi master . this is followed by a status bit generated by vnc2 . the data read status bit is defined in table 6 . 10 . if the status bit indicates new data then the byte received is valid. if it indicates old data then the transmit buffer i n vnc2 is empty and the byte of data received in the current transaction should be disregarded. time description minimum typical maximum unit t1 sclk period 79.37 83.33 ns t2 sclk high period 39.68 41.67 39.68 n s t3 sclk low period 39.68 41.67 39.68 ns t4 sclk driving edge to miso/mosi 0.5 14 ns t5 miso/ss setup time to sample sclk edge 3 ns t6 miso/ss hold time from sample sclk edge 3 ns 51 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 status bit meaning 0 new data data in current transaction is valid data. byte removed from transmit buffer. 1 old data this same data has been read in a previous read cycle. repe at the read cycle until new data is received. table 6 . 10 spi master data read status bit figure 6 . 17 spi master data read (vnc2 slave mode ) the status bit i s only valid until the next rising edge of sclk after the last data bit. during the data read operation the ss signal must not be de - asserted. the transfer completes after 12 clock cycles and the next transfer can begin when mosi and ss are high during the rising edge of sclk. 6.3.6.3 spi master data write transaction in vnc1l legacy mode during an spi master data write operation the start and setup sequence is sent by the spi master to vnc2 , see figure 6 . 18 . t hi s is followed by the spi master transmitting each bit of the data to be written to vnc2. the vnc2 then responds with a status bit on miso on the rising edge of the next clock cycle. the spi master must read the status bit at the end of each write transacti on to determine if the data was written successfully to vnc2 receive buffer. the data write status bit is defined in table 6 . 11 . t he status bit is only valid until the next rising edge of sclk after the la st data bit. if the status bit indicates accept then the byte transmitted has been added to vnc2 receive buffer. if it shows reject then the receive buffer is full and the byte of data transmitted in the current transaction should be re - transmitted by the spi master to vnc2. any application should poll vnc2 receive buffer by retrying the data write operation until the data is accepted. status bit meaning 0 accept data from the current transaction was accepted and added to the receive buffer 1 reject write data was not accepted. retry the same write cycle. table 6 . 11 spi master data write status bit 52 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 6 . 18 spi slave mode data write 6.3.6.4 spi master status rea d transaction in vnc1l legacy mode the vnc2 has a status byte which determines the state of the receive and transmit buffers. the spi master must poll vnc2 and read the status byte . the start and setup sequence is sent to vnc2 by the spi master, see figure 6 . 19 . the vnc2 clocks out its status byte on subsequent rising edge clock cycles from the spi master . this is followed by a status bit generated by vnc2 (also on the miso ) which will always be zero (in dicating new data). the meaning of the bits within the status byte sent by vnc2 during a status read operation is described in table 6 . 12 . the result of the status read transaction is only valid during t he transaction itself. data read and data write transactions must still check the status bit during a data read or data write cycle regardless of the result of a status read operation. bit description description 0 rxf# receive buffer full 1 txe# transm it buffer empty 2 - not used 3 - not used 4 rxf irqen receive buffer full interrupt enable 5 txe irqen transmit buffer empty interrupt enable 6 - not used 7 - not used table 6 . 12 spi stat us read byte C bit descriptions figure 6 . 19 spi slave mode status read 53 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.4 serial peripheral interface C spi master figure 6 . 20 spi master block d iagram the spi master interface is used to interface to applications such a s sd cards. the spi master provide s the following features: synchronous serial data link. full an d half duplex data transmission. serial clock with programmabl e frequency, polarity and phase. one slave select output. programmable delay between negative edge of slave select and start of transfer. sd card interface . an interface that?s compatible with the vlsi vs1033 sci mode used for vmusic capability the spi master only clocks in an d out data that the vnc2 cpu sets up in its register space. the vnc2 cpu interprets the data words that are to be sent and received. 6.4.1 spi master signal descriptions. table 6 . 13 shows the spi master signa ls and the available pins that they can be mapped to depending on the package size. further details on the configuration of input and output signals are available in s ection 5 - i/o multiplexer . 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 spi_m_clk output spi master c lock input v n c 2 - s p i m a s t e r e x t e r n a l - s p i s l a v e c l k s s # m i s o m o s i 54 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 12, 16, 20, 25, 29 , 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 spi_m_mosi output master out slave i n synchronous data from master to slave 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 spi_m_miso input master in slav e o ut synchronous data from slave to master 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 spi_m_ ss _0# output active low slave select 0 from master to slave 0 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 spi_m_ ss _1# output active low slave select 1 from master to slave 1 table 6 . 13 spi master signal names the main purpose of the spi master block is to transfer data between an exter nal spi interface and the vnc2 . it does this under the control of the cpu and dma engine via the on chip i/o bus. an spi master interface transfer can only be initiated by the spi master and begins with the slave select signal being asserted. this is follo wed by a data byte being clocked out with the master supplying sclk. the master always supplies the first byte, which is called a command byte. after this the desired number of data bytes are transferred before the transaction is terminated by the master d e - asserting slave select. the spi master will transmit on mosi as well as receive on miso during every data stage. at the end of each byte spi_tx_done and spi_rx_full_int are set. figure 6 . 21 typical spi master t iming and table 6 . 14 spi master timing show an example of this. 55 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 6 . 21 typical spi master t iming table 6 . 14 spi master timing time description minimum typical maximum unit t 1 sclk period 39.68 41.67 ns t 2 sclk high period 19.84 20.84 21.93 ns t 3 sclk low period 19.84 20.84 21.93 ns t 4 sclk driving edge to mosi/ss - 1.5 3 ns t 5 miso setup time to sample sclk edge 6.5 ns t 6 miso hold time from sample sclk edge 0 ns 56 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.5 debugger interface the purpose of the debugger interface is to provide the integrated development environment ( ide ) with the following capabilities: flash erase, write and program. application debug - application code can have breakpoints, be single stepped and can be halted. detailed inter nal debug - memory read/write access. the single wire interface has the following feature s: half duplex operation 1mbps speed 1 start bit 1 stop bit 8 data bits pull up further informationof the debugger interface is available in an application note an_138 vinculum - ii debug interface description . 6.5.1 debugger interface signal description 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39 , 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 d ebug_if input/ output debugger interface table 6 . 15 debugger signal name 57 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.6 parallel fifo C asynchronous mode parallel fifo asynchronous mode kn own as ? 245 ?, is functionally the same as the o ne that is present in vnc1l has an eight bit data bus, individual read and write strobes and two hardware flow control signals. 6.6.1 fifo signal descriptions the parallel fifo interface signals are described in table 6 . 16 t hey can be programmed to a choice of i/o pins depending on the package size. further details on the configuration of input and output signals are available in s ection 5 - i/o multiplexer . 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 fifo_da ta[0] i/o fifo data bus bit 0 12, 16, 20, 25, 29, 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 fifo_data[1] i/o fifo data bus bit 1 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 fifo_data[2] i/o fifo da ta bus bit 2 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 fifo_data[3] i/o fifo data bus bit 3 58 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 fifo_data[4] i/o fifo data bus bit 4 12, 1 6, 20, 25, 29, 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 fifo_data[5] i/o fifo data bus bit 5 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 fifo_data[6] i/o fifo data bus bit 6 14, 18, 23, 27, 32, 42 , 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 fifo_data[7] i/o fifo data bus bit 7 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 fifo_rxf # output when high, do not read data from the fifo. when low, there is data available in the fifo which can be read by strobing fifo_rd # low, then high. 59 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 64 pin package available pins 48 pin package available pins 32 pin package available pins name type description 12, 16, 20, 25, 29, 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 fifo_txe # output when high, do not write data into the fifo. when low, data can be written into the fifo by strobing fifo_wr# high, then low. 13, 17, 22, 26, 31, 41, 45, 49, 55, 59, 63 13, 18, 22, 33, 37, 43, 47 14, 25, 31 fifo_rd # input enables the current fifo data byte on d0...d7 when low. fetches the next fifo data byte (if available) fro m the receive fifo buffer when fifo_rd # goes from high to low 14, 18, 23, 27, 32, 42, 46, 50, 56, 60, 64 14, 19, 23, 34, 38, 44, 48 15, 26, 32 fifo_wr # input writes the data byte on the d0...d7 pins into the transmit fifo buffer when fifo_wr# goes from hi gh to low. table 6 . 16 data and contro l bus signal mode options - parallel fifo interface 6.6.2 read / write transaction asynchronous fifo mode when in asynchronous fifo interface mode, the timing o f read and wri te operation s on the fifo interface are shown in figure 6 . 22 and table 6 . 17 . in asynchronous mode an external device can control data transfer driving fifo_ wr# and fifo_ rd# inputs. in contrast to synchronous mode, in asynchronous mode the 245 fifo module generates the output enable en# signal. en# signal is effectively the read signal rd#. current byte is available to be read when fifo_ rd# goes low. when fifo_ rd# goes high, fifo_ rxf# output will also go high. it will only become low again when there is another byte to read. when fifo_ wr# goes low fifo_ txe# flag will always go high. fifo_ txe# goes low again only when there is still space for data to be written in to the module. 60 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 6 . 22 asynchronous fifo mode read / write cycle time description minimum maximum unit t1 rd# inactive to rxf# 1 14 ns t2 rxf# inactive after rd# cycle 100 ns t3 rd# t o data 1 14 ns t4 rd# active pulse width 30 ns t5 rd# active after rxf# 0 ns t6 wr# active to txe# inactive 1 14 ns t7 txe# inactive after wr# cycle 100 ns t8 data to txe# active setup time 5 ns t9 data hold time after wr# inactive 5 ns t10 wr# active pulse width 30 ns t11 wr# active after txe# 0 ns table 6 . 17 asynchronous fifo mode read / write timing 61 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.7 parallel fifo C s ynchronous mode the parallel fifo synchronous mode has an eight bit data bus, indivi dual read and write strobes, two hardware flow control signals , an output enable and a clock out . the synchronous fifo mode uses the parallel fifo interface signals detailed in table 6 . 16 and an ad ditional two signals detailed in table 6 . 18 . this mode is not available on the 32 pin packages. 64 pin package available pins 48 pin package available pins 32 pin package available pins name type descrip tion 11, 15, 19, 24, 28, 39, 43, 47, 51, 57, 61 11, 15, 20, 31, 35, 41, 45 11, 23 29 fifo_oe# i/o fifo output enable 12, 16, 20, 25, 29, 40, 44, 48, 52, 58, 62 12,16, 21, 32, 36, 42, 46 12, 24, 30 fifo_clkout i/o fifo clock out table 6 . 18 synchronous fifo control signals 62 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 6.7.1 read / write transaction s ynchronous fifo mode when in synchronous fifo interface mode, the timing of read and write operations on the fifo interface are shown in figure 6 . 23 synchronous fifo mode read / write cycle and table 6 . 19 synchronous fifo mode read / write timing in synchronous mode data can be transmitted to and from the fifo module on each clock edge. an external device synchronises to the clkout output and it also has access to the output enable oe# input to control data flow. an external devi ce should drive output enable oe# low before pulling rd# line down. when bursts of data are to be read from the module rd# should be kept low. rxf# remains low when there is still data to be read. similarly when bursts of data are to be written to the modu le wr# should be kept low. txe# remains low when there is still space available for the data to be written. figure 6 . 23 synchronous fifo mode read / write cycle 63 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 time description minimum typical max imum unit t1 clkout period 20.83 ns t2 clkout high period 9.38 10.42 11.46 ns t3 clkout low period 9.38 10.42 11.46 ns t4 clkout to rxf# 1 7.83 ns t5 clkout to read data valid 1 7.83 ns t6 oe# to read data valid 1 7.83 ns t7 clkout to oe# 1 7 .83 ns t8 rd# setup time 12 ns t9 rd# hold time 0 ns t10 clkout to txe# 1 7.83 ns t11 write data setup time 12 ns t12 write data hold time 0 ns t13 wr# setup time 12 ns t14 wr# hold time 0 ns table 6 . 19 synchronous fifo mode read / write timing 6.8 general purpose timers in vnc2 there are 4 general purpose timers available. three are available to the designer and one is reserved for the rtos. the timers have the following features: 16 bit cou nt down one shot and auto - reload enable interrupt on zero 6.9 pulse width modulation vnc2 provides 8 pulse width modulation (pwm) outputs. these can be used to generate pwm signals which can be used to control motors, dc/dc converters, ac/dc supplies, etc. fu rther information is available in an application n ote an_140 - vinculum - ii pwm example . the features of the pwm module are as follows: 8 pwm outputs a trigger input 8 - bit prescaler 16 - bit counter 64 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 generation of up to 4 - pulse signal with controlled output enable and configurable initial state interrupt a single pwm cycle can have up to 4 pulses (8 edges) . the pwm block uses a 16 - bit counter to determine the period of a single pwm cycle. this counter counts system clocks which can also be divided by an optional 8 - bit prescaler. the pwm driver s allow the user to select when pwm output toggles. these values correspond to the values of 16 - bit counter. for ex ample, on the timing diagram below - figure 6 . 24 , the 16 - bit counter counts to 23 and pwm_out[0] output toggles when the counter?s current value is equal to 7, 8, 12, 14, 15, 16, 19 and 22. figure 6 . 24 pwm C timing diagram the user can also select the initial state of each of the pwm outputs (hi or low). pwm outputs can also be enabled continuously or a cycle can be repeated 1..255 times. the pwm cycl e can be started by the pwm driver or externally using a trigger input. 6.10 general purpose input output vnc2 provides up to 4 0 configur able input / output pins depending on the package . the input/output pins are connected to ports a through e. these ports are controlled by the vnc2 cpu . all ports are configurable to be ei ther inputs or outputs and allow level or edge driven interrupts to be generated . to simplify the use of the 40 available gpio signals, they have been grouped into 5 "ports", identified as a, b, c, d and e. each port is 1 byte wide and the rtos drivers will allow each port to be individually accessed . each gpio signal is mapped on to a bit of the por t value. for example, gpi o [ a 0] is the least significant bit of the value read from or written to gpio port a. similarly, gpio [ a 7] is the most significant bit of the value read from or written to gpio port a (see figure 6 . 25 gpio port groups ) each pin can be individually config ured as input or output. gpio port a supports an interrupt that can be used to detect a state change of any of its 8 pins. port b features a more sophisticated set of 4 configurable interrupts that can be associated with individual pins and supports seve ral conditions such as positive edge, negative edge, high or low. figure 6 . 25 gpio port groups p o r t a g p i o [ a 0 ] g p i o [ a 1 ] g p i o [ a 2 ] g p i o [ a 3 ] g p i o [ a 4 ] g p i o [ a 5 ] g p i o [ a 7 ] g p i o [ a 6 ] p o r t b g p i o [ b 0 ] g p i o [ b 1 ] g p i o [ b 2 ] g p i o [ b 3 ] g p i o [ b 4 ] g p i o [ b 5 ] g p i o [ b 7 ] g p i o [ b 6 ] p o r t c g p i o [ c 0 ] g p i o [ c 1 ] g p i o [ c 2 ] g p i o [ c 3 ] g p i o [ c 4 ] g p i o [ c 5 ] g p i o [ c 7 ] g p i o [ c 6 ] p o r t d g p i o [ d 0 ] g p i o [ d 1 ] g p i o [ d 2 ] g p i o [ d 3 ] g p i o [ d 4 ] g p i o [ d 5 ] g p i o [ d 7 ] g p i o [ d 6 ] p o r t e g p i o [ e 0 ] g p i o [ e 1 ] g p i o [ e 2 ] g p i o [ e 3 ] g p i o [ e 4 ] g p i o [ e 5 ] g p i o [ e 7 ] g p i o [ e 6 ] 65 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 7 usb interfaces vnc2 has two usb 1.1 and usb 2.0 compliant interf aces available eith er as a usb h ost or slave device capable of supporting 1.5mb/s (low speed) and 1 2mb/s (f ull speed) transactions. the usb specification defines 4 transfer types that are all supported by vnc2: interrupt transfer: used for legacy devices where the device is periodically polled to see if the device has data to transfer e.g. mouse, keyboard. vnc2 interrupt transfers are valid for low - and full - speed transactions. bulk t ransfer: used for transferring large blocks of data that have no periodic or transfer rate r equirement e.g. usb to rs232 (ft232r device) , memory sticks . vnc2 bulk transfers are only valid for full - speed transactions. isochronous t ransfer: used for transferring data that re quires a constant delivery rate e.g. web cam, wireless modem. vnc2 isochr onous transfers are only valid for full - speed transactions. control t ransfer: used to transfer specific requests to all types usb devices (most commonly us ed during device configuration). vnc2 control transfers are valid for low - and full - speed transfers. usb 2.0 - 480mb/s (high speed) transactions are not supported as the power requirements are deemed excessive for vnc2 target applications. vnc2 configured to full speed is supported. vnc2 has tw o main usb modes of operation: h ost mode or c lient (or slave) mode. as a c lient , vnc2 is able to connect to a pc and act as a usb peripheral . at the same time as being a client the second usb interface is also able to act as a h ost and connect to a second usb device using two separate ports ( i.e. port 0 C host port 1 - client ) . each usb interface can be either a host or a client . it is not possible to change from host to client or client to host on - the - fly . the following diagram s in figure 7.1 give examples of possible modes of operation: figure 7 . 1 usb modes v n c 2 p o r t 1 p o r t 0 b o m s f l a s h d i s k u s b d e v i c e p o r t 0 a n d 1 i n h o s t m o d e v n c 2 p o r t 1 p o r t 0 p o r t 0 i n s l a v e m o d e u s b h o s t v n c 2 p o r t 1 p o r t 0 p o r t 0 i n s l a v e m o d e a n d p o r t 1 i n h o s t m o d e u s b h o s t b o m s f l a s h d i s k v n c 2 p o r t 1 p o r t 0 p o r t 0 a n d 1 i n s l a v e m o d e ( n u l l m o d e m t y p e a p p l i c a t i o n ) u s b h o s t u s b h o s t 66 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 8 firmware vnc2 firmware model has evolved considerably since vinc1l . for reasons of code maintainability, performance, stability and ease of use from the point of view of the cust omer, vnc2 has a modular firmware model. vnc2 firmware can be separated into 4 categories: vnc2 real - time operating system (rtos) . vnc2 device drivers . user applications C tool c hain . precompiled firmware. 8.1 rtos the vnc2 rtos (vos) is a pre - emptive prior ity - based multi - tasking operating system. vos has been developed by ftdi and is available to customers for use in their own vnc2 based systems free of charge. vos is supplied as linkable object files. a full explanation and how to use vos is available in a separate application note which can be downloaded from the ftdi website . 8.2 device drivers to facilitate communication between user applications and the vnc2 hardware peripherals ftdi provides device drivers which op erate with vos. in addition to the ha rdware device drivers, ftdi provide s function drivers (available from the ftdi website ) which build upon the basic hardware device driver functionality for a specific purpose. fo r example, drivers for standard usb device classes may be created which build upon the usb host hardware driver to implement a boms class, cdc, printer class or even a specific vendor class device driver. 8.3 firmware C software devel op ment tool c hain the vn c2 provides customers with the opportunity to customise the firmware and perform useful tasks without an external mcu. a firmware application note is available to download from the ftdi website , this give further deta ils and operating instructions. the vnc2 software development t oolchain consists of the following components : compiler the compiler will take high - level source code and compile it into object code or direct to programmable code. linker the linker will tak e object code and libraries and link the code to produce either libraries or programmable code. it is designed to be as hardware independent as possible to allow reuse in future hardware devices. debugge r the debugger allows a programmer to test code on th e hardware platform using a special comm unication channel to the cpu. it is also used to debug code C run, stop, single step, breakpoints etc. ide all compiler, simulator and debugger functions are integrated into a single application for programmers. it p rovides a specialised text editor which is used generally used to develop application code , debugging and simulation. 67 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 8.4 precompil ed firmware vnc2 can be programmed with various pre - compiled f irmware profiles to allow a designer to easily change the functi onality of the chip. the following pre - compiled rom files are currently available: v2 dap f irmware: usb host for single flash disk and general p urpose usb peripherals. selectable uart , fifo or spi interface command monitor . offers a migration path from vnc 1l designs with vdap firmware. v2dps firmware: usb host for single flash disk and general purpose usb peripherals and usb peripheral emulating a ft232 on a host computer. offers a migration path for vnc1l designs with vdps. v2f2f firmware: usb host for two flash disks with file copy functions. offers a migration path for vnc1l designs with vf2f firmware. cdc modem sample application: demonstrates connection of a cdc device to usb port 1 by establishing a link between the cdc device and the uart of the vnc2. usbhost ft232 uart echo sample application: demonstrates emulation of a ftdi ft232 device on usb port 1. data is looped back. designers are advised to refer to the ftdi website for the most current details on available firmware. 68 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 9 device characteristics and ratings 9.1 absolute maximum ratings the absolute maximum ratings for vnc2 are shown in table 9 . 1 . these are in accordance with the abs olute maximum rating system (iec 60134). exceeding these may cause permanent damage to the device. parameter value unit storage temperature - 6 5 to + 150 c floor life (out of bag) at factory ambient ( 30c / 60% relative humidity) 168 (ipc/jedec j - std - 033a msl level 3 compliant)* hours ambient temperature (power applied) - 40 to + 85 c vcc supply voltage 0 to +3.6 3 v vcc_io 0 to +3.6 3 v vcc_pll_in 0 to + 1.98 v dc input voltage - usbdp and usbdm - 0.5 to +(vcc +0.5) v dc input voltage - high impe dance bidirectional - 0.5 to +5.00 v dc input voltage - all other inputs - 0.5 to +(vcc +0.5) v dc output current - outputs default 4 ** ma dc output current - low impedance bidirectional default 4 ** ma table 9 . 1 absolute maximum ratings * if devices are stored out of the packaging beyond this time limit the devices should be baked before use. the devices should be ramped up to a temperature of 125c and baked for up to 17 hours. ** the drive strength of th e output stage may be configured for either 4ma, 8ma, 12ma or 16ma depending on the register setting controlled within the firmware. the default is 4ma. 69 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 9.2 dc characteristics dc characteristics (ambient temperature - 40?c to +12 5 ?c) parameter descr iption minimum typical maximum units conditions vcc1 vcc operating supply voltage 1.62 1.8 1.98 v vcc2 vccio operating supply voltage 2.97 3.3 3.63 v vcc_pll vcc_pll operating supply voltage 1.62 1.8 1.98 v icc1 operating supply current 48mhz 25 ma normal operation icc2 operating supply current 24mhz 16 ma low power mode icc3 operating supply current 12mhz 8 ma lowest power mode icc4 operating supply current 128 a usb suspend table 9 . 2 operating voltage and current parameter description minimum typical maximum units conditions voh output voltage high 2.4 v i source = 8ma vol output voltage low 0.4 v i sink = 8ma vin input switching threshold 1.5 v table 9 . 3 i/o pin characteristics 70 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 parameter description minimum typical maximum units conditions uvoh i/o pins static output ( high) 2.8 v uvol i/o pins static output ( low ) 0.3 v uvse single ended rx threshold 0.8 2.0 v ucom differential common mode 0.8 2.5 v uvdif differential input sensitivity 0.2 v udrvz driver output impedance 3 6 9 ohms table 9 . 4 usb i/o pin (usbdp, usbdm) characterist ics parameter description minimum typical maximum units conditions vcck power supply of internal core cells and i/o to core interface 1.62 1.8 1.98 v 1.8v power supply vcc18io power supply of 1.8v osc pad 1.62 1.8 1.98 v 1.8v power supply t j operating junction temperature - 40 25 125 c i in input leackage current - 10 1 10 a i in = vcc18io or 0 v i oz tri - state output leakage current - 10 1 10 a table 9 . 5 crystal oscillator 1.8 volts dc characteristics 71 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 9.3 esd and latch - up specifications description specification human body mode (hbm) tbd machine mode (mm) tbd charged device mode (cdm) tbd latch - up > 200ma table 9 . 6 esd and latch - up specifications 72 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 10 ap pl ication examples 10.1 example vnc2 schematic (mcu C uart interface) vnc2 can be configured to communicate with a microcontroller using a uart interface. an example of this is shown in figure 10 . 1 . figure 10 . 1 vnc2 schematic (mcu C uart interface) note s : this sample circuit is not intended to be a complete design . it shows the minimum connections for a basic vnc2 circuit . the value of the capacitors connec ted to the crystal will depend on the requirements of the crystal. the 5v0_sw power signal assumes proper switching and over - current detection conform to the usb - if specifications for a usb host port. the 120uf capacitor should be a low - esr type. the va lue of the ferrite bead s may need adjusted for emi compatibility . input and output capacitors for the 3.3v regulator should be chosen according to the datasheet of the selected part. t he vnc2 outputs connect to the mcu intputs and mcu outputs to vnc2 inp uts (txd to rxd and rts# to cts# in each direction). note for vnc2 - 48l 1b only: with t he 48 - pin lqfp package, pin 7 is not connected (vregout). the regulator output has an internal connection to vccpllin to accommodate a migration path from vnc1l design s . in this case, pin 3 ( vccpllin ) requires only one 100nf capacitor to ground. all other packages require the external circuitry shown to connect vregout to vccpllin. 73 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11 package parameters vnc2 is available in six rohs compliant packages, three qfn packages ( 64qfn, 48qfn & 32qfn) and three lqfp packages (64lqfp, 48lqfp & 32lqfp). all package s are lead (pb) free and use a ?green? compound. the package s are fully compliant with european union directive 2002/95/ec. the mechanical drawing s of all six packages are shown in sections 11.2 to 11.7 C all dimensions are in millimetres. the solder reflow profile for all packages can be viewed in section 11.8 . 11.1 vnc2 package markings an example of t he markings on each package are shown in figure 11 . 1 . the ftdi part number is too long for the 32 qfn package so in this case the last two digits are wrapped down onto the date code line as shown in figure 11 . 2 . figure 11 . 1 package markings figure 11 . 2 markings C 32 qfn the last letter of the ftdi part number is the silicon revision number. this may change from a to b to c, etc , . please check the part number for the most recent revision. l i n e 4 - d a t e c o d e y y - y e a r y e a r w w - w o r k w e e k x x x x x x x x x x f t d l y y w w v n c 2 - 6 4 q 1 a l i n e 3 C f t d i p a r t n u m b e r i n c l u d i n g r e v i s i o n . i n t h i s c a s e i t s h o w s r e v a . p l e a s e c h e c k f o r m o s t r e c e n t r e v i s i o n . l i n e 2 C w a f e r l o t n u m b e r l i n e 1 C f t d i l o g o x x x x x x x x x x f t d l 1 a y y w w v n c 2 - 3 2 q 74 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.2 vnc2 , lqfp - 32 package dimensions figure 11 . 3 lqfp - 32 package dimensions f t d l x x x x x x x x y y w w v n c 2 - 3 2 l 1 a p i n # 1 p i n # 3 2 75 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.3 vnc2 , qfn - 32 package dimensions figure 11 . 4 qfn - 32 package dimensions 1 x x x x x x x x f t d l 1 a y y w w v n c 2 - 3 2 q 1 76 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.4 vnc2 , lqfp - 48 package dimensions figure 11 . 5 lqfp - 48 package dimensions p i n # 1 0 . 2 5 1 . 6 0 m a x 1 2 o + / - 1 o 1 . 4 + / - 0 . 0 5 0 . 2 m i n 0 . 6 + / - 0 . 1 5 1 . 0 0 . 0 5 m i n 0 . 1 5 m a x 0 . 2 4 + / - 0 . 0 7 0 . 2 2 + / - 0 . 0 5 0 . 0 9 m i n 0 . 2 m a x 0 . 0 9 m i n 0 . 1 6 m a x 7 9 7 9 p i n # 4 8 0 . 5 0 . 2 2 + / - 0 . 0 5 x x x x x x x x f t d l y y w w v n c 2 - 4 8 l 1 a 77 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.5 vnc2 , qfn - 48 package dimensions figure 11 .2 qfn - 48 package dimensions 4 8 1 x x x x x x x x x x f t d l y y w w v n c 2 - 4 8 q 1 a 1 4 8 78 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.6 vnc2 , lqfp - 64 package dimensions figure 11 . 6 64 pin lqfp package details 1 0 1 0 1 2 1 2 0 . 2 5 1 . 6 0 m a x 1 2 o + / - 1 o 1 . 4 + / - 0 . 0 5 0 . 2 m i n 0 . 6 + / - 0 . 1 5 1 . 0 0 . 0 5 m i n 0 . 1 5 m a x 0 . 5 f t d l x x x x x x x x v n c 2 - 6 4 l 1 a y y w w 0 . 2 2 + / - 0 . 0 5 0 . 2 + / - 0 . 0 3 0 . 0 9 m i n 0 . 2 m a x 0 . 0 9 m i n 0 . 1 6 m a x p i n # 1 p i n # 6 4 79 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 11.7 vnc2 , qfn - 64 packa ge dimensions figure 11 . 7 64 pin qfn package details 11.8 solder reflow profile x x x x x x x x x x f t d l y y w w v n c 2 - 6 4 q 1 a 80 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 11 . 8 all packages reflow solder profile 81 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 p rofile feature pb free solder process (green material) snpb eutectic and pb free (non green material) solder process average ramp up rate (t s to t p ) 3c / second max. 3c / second max. preheat : - temperature min (t s min.) - temperature max (t s max.) - time (t s min to t s max) 150c 200c 60 to 120 seconds 1 00c 150c 60 to 120 seconds time maintained above critical temperature t l : - temperature (t l ) - time (t l ) 217c 60 to 150 seconds 183c 60 to 150 seconds peak temperature (t p ) 260c see table 11 . 2 time within 5c of actual peak temperature (t p ) 30 to 40 seconds 20 to 40 seconds ramp down rate 6c / second max. 6c / second max. time for t= 25c to peak temperature, t p 8 min utes max. 6 minutes max. table 11 . 1 reflow profile parameter values snpb eutectic and pb free (non green material) package thickness volume mm3 < 350 volume mm3 >=350 < 2.5 mm 235 +5/ - 0 c 220 +5/ - 0 c 2.5 mm 220 +5/ - 0 c 220 +5/ - 0 c pb free (green material) = 260 +5/ - 0 c table 11 . 2 package reflow peak temperature 82 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 12 contact information head office C glasgow, uk future technology devices internati onal limited unit 1, 2 seaward place, centurion business park glasgow g 41 1hh united kingdom tel: +44 (0) 141 429 2777 fax: +44 (0) 141 429 2758 e - mail (sales) sales 1 @ftdichip.com e - mail (support) support 1 @ftdichip.com e - mail (general enquiries) admin1@ftdichip.com branch office C taipei, taiwan future technology devices international limited (taiwan) 2f, no. 516, sec. 1, neihu road taipei 114 taiwan , r.o.c. tel: +886 (0) 2 879 1 3570 fax: +886 (0) 2 87 9 1 3576 e - mail (sales) tw.sales1@ftdichip.com e - mail (support) tw.support1@ftdichip.com e - mail (general enquiries) tw.admin1@ftdichip.com branch office C hillsboro, oregon, usa future technology devices international limited (usa) 7235 nw evergreen parkway, suite 600 hillsboro, or 97123 - 5803 us a tel: +1 (503) 547 0988 fax: +1 (503) 547 0987 e - mail (sales) us.sales@ftdichip.com e - mail (support) us.support@ftdichip.com e - mail (general enquiries) us.admin@ftdichip.com branch office C shanghai , china future technology devices international limited ( china ) room 408 , 317 xianxia road, shanghai, 200051 china tel: +86 21 62351596 fax: +86 21 62351595 e - mail (sales) cn.sales@ftdichip.com e - mail (support) cn.support@ftdichip.com e - mail (general enquiries) cn.admin@ftdichip.com web site http://ftdichip.com distributor and sales representatives please visit the sales network page of the ftdi web site for the contact details of our distributor(s) and sal es representative(s) in your country. neither the whole nor any part of the information contained in, or the product described in this manual, may be adapted or re produced in any material or electronic form without the prior written consent of the copyri ght holder. this product and its documentation are supplied on an as - is basis and no warranty as to their suitability for any particular purpose is either made or implied. future technology devices international ltd will not accept any claim for damages ho wsoever arising as a result of use or failure of this product. your statutory rights are not affected. this product or any variant of it is not intended for use in any medical appliance, device or system in which the failure of the product might reasonably be expected to result in personal injury. this document provides preliminary information that may be subject to change without notice. no freedom to use patents or other intellectual property rights is implied by the publication of this document. future t echnology devices international ltd, unit 1, 2 seaward place, centurion business park, glasgow g41 1hh, united kingdom. scotland registered company number: sc136640 83 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 appendix a C references application , technical notes , toolchain download and precomp iled romfile links the following vnc2 documents and the full vinculum - ii toolchain software suite can be downloaded by clicking on the appropriate links below: technical note tn_108 vinculum chipset feature comparison technical note tn_118 vinculum - ii errata technical note application note a n_1 1 8 migrating vinculum designs from vnc1l to vnc2 - 48l1a application note a n_1 37 vinculum - ii io cell description application note a n_1 3 8 vinculum - i i debug interface description application note a n_1 39 vinculum - ii io mux explained application note a n_1 40 vinculum - ii pwm example application note a n_1 42 vinculum - ii t ool c hain getting started guide application note a n_1 44 v inculum - ii io_mux configuration utility user guide application n ote a n_1 45 vinculum - ii toolchain installation guide application note a n_1 51 vinculum - ii user guide vnc2 ftdi web page vinculum - ii web page the following application notes provide pre - compiled example romfiles and complete source code to allow users to get started : application note a n_1 82 : vnc2 uart to ft232 hostbridge application note a n_1 83 : vnc2 uart to cdc modem bridge application note a n_1 85 : vnc2 uart to usb hid class hostbridge application note a n_1 86 : an spi slave to usb memory bridge application note a n_1 87 : vnc2 uart to usb memory bridge application note a n_1 92 : an spi master to a usb hid class host bridge application note a n_1 93 : an spi master to a usb hid class host bridge application note a n_1 94 : vnc2 uart to hid class device bridge application note an_195 : an spi master to uart bridge application note a n_1 99 : vnc2 spi slave to hid class device bridge application note a n_ 203 : loading vnc2 rom files using v2prog utility fo r the most up to date pre - comp i led romfiles, please re fer to the following ftdi webpage http://www.ftdichip.com/firmware/precompiled.htm 84 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 acronyms and abbreviations terms description usb universal serial bus fifo first in first out spi serial peripheral interface pwm pulse width modulation gpio general purpose input output i/o input / output vnc1l vinculum - i vnc2 vinculum - ii dma direct memory access ide integrated development environment boms bulk only mass storage uart universal asynchronous receiver/transmitt er sie serial interface engine cpu central processing unit soc system - on - a - chip fat file allocation table rtos real time operating system vos vinculum operating system osi open system interconnection mosi master out slave in miso master in slave o ut se0 single ended zero emcu embedded micro central processing unit fpga field programmable gate array table 0 . 1 acronyms and abbreviations 85 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 appendix b C list of figures and tables list of tables table 1.1 part numbers ................................ ................................ ................................ ................. 2 table 3.1 usb interface group ................................ ................................ ................................ ..... 16 table 3.2 power a nd ground ................................ ................................ ................................ ........ 16 table 3.3 miscellaneous signal group ................................ ................................ ............................ 17 table 3.4 default i/o configuration ................................ ................................ ............................... 20 table 4.1 - peripheral pin requirements ................................ ................................ ........................ 22 table 5.1 i/o peripherals signal names ................................ ................................ ........................ 29 table 5.2 grou p 0 ................................ ................................ ................................ ....................... 31 table 5.3 group 1 ................................ ................................ ................................ ....................... 32 table 5.4 group 2 ................................ ................................ ................................ ....................... 33 table 5.5 group 3 ................................ ................................ ................................ ....................... 34 table 6.1 data and control bus signal mode options C uart interface ................................ .............. 38 table 6.2 spi signal names ................................ ................................ ................................ ......... 39 table 6.3 - spi slave speeds ................................ ................................ ................................ ....... 40 table 6.4 - clock phase/polarity modes ................................ ................................ .......................... 40 table 6.5 d ata and control bus signal mode options - spi slave interface ................................ ....... 42 table 6.6 spi command and status fields ................................ ................................ ..................... 44 table 6.7 spi comma nd and status fields ................................ ................................ ..................... 49 table 6.8 spi setup bit encoding ................................ ................................ ................................ .. 49 table 6.9 spi slave data timing ................................ ................................ ................................ ... 50 table 6.10 spi master data read status bit ................................ ................................ ................... 51 table 6.11 spi master data write status bit ................................ ................................ .................. 51 tabl e 6.12 spi status read byte C bit descriptions ................................ ................................ ......... 52 table 6.13 spi master signal names ................................ ................................ ............................. 54 table 6.14 spi master timing ................................ ................................ ................................ ....... 55 table 6.15 debugger signal name ................................ ................................ ............................... 56 table 6.16 data and control bus signal mode options - parallel fifo interface ................................ .. 59 table 6.17 asynchronous fifo mode read / write timing ................................ ............................... 60 table 6.18 synchronous fifo control signals ................................ ................................ .................. 61 table 6.19 synchronous fifo mode read / write timing ................................ ................................ . 63 table 9.1 absolute maximum ratings ................................ ................................ ............................ 68 table 9.2 ope rating voltage and current ................................ ................................ ....................... 69 table 9.3 i/o pin characteristics ................................ ................................ ................................ ... 69 table 9.4 usb i/o pin (usbdp, usbdm) characteristics ................................ ................................ .. 70 table 9.5 crystal oscillator 1.8 volts dc characteristics ................................ ................................ .. 70 table 9.6 esd and latch - up specifications ................................ ................................ ..................... 71 table 11.1 reflow profile parameter values ................................ ................................ .................... 81 table 11.2 package reflow peak temperature ................................ ................................ ................ 81 table 0.1 acronyms and abbreviations ................................ ................................ .......................... 84 86 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 list of figures figure 2.1 simplified vnc2 block diagram ................................ ................................ ....................... 3 figure 3.1 32 pin lqfp C top down view ................................ ................................ ........................ 7 figure 3.2 32 pin qfn C top down v iew ................................ ................................ ......................... 8 figure 3.3 48 pin lqfp C top down view ................................ ................................ ........................ 9 figure 3.4 48 pin qfn C top down view ................................ ................................ ........................ 10 figure 3.5 64 pin lqfp C top down view ................................ ................................ ...................... 11 figure 3.6 64 pin qfn C top down view ................................ ................................ ........................ 12 figure 3.7 schemati c symbol 32 pin ................................ ................................ ............................. 13 figure 3.8 schematic symbol 48 pin ................................ ................................ ............................. 14 figure 3.9 schematic symbol 64 pin ................................ ................................ ............................. 15 figure 5.1 iobus to group relationship - 64 pin ................................ ................................ .............. 25 figure 5.2 iobus to uart, spi slave0 and spi master example ................................ ....................... 26 figure 5.3 iobus to uart, spi slave0 and spi master second example ................................ ............. 27 figure 5.4 iobus to uart, spi slave0 and spi master third example ................................ ................ 28 figure 5.5 vnc2 toolchain app wizard showing iomux configuration ................................ ................ 30 figure 5.6 uart example 64 pin ................................ ................................ ................................ ... 35 figure 6.1 uart receive waveform ................................ ................................ .............................. 36 figure 6.2 uart transmit waveform ................................ ................................ ............................. 36 figure 6.3 - spi cpol cpha function ................................ ................................ ............................ 41 figure 6.4 spi slave block diagram ................................ ................................ ............................... 41 figure 6.5 full duplex data master write ................................ ................................ ....................... 43 figure 6.6 full duplex data master read ................................ ................................ ....................... 4 3 figure 6.7 spi command and status structure ................................ ................................ ............... 44 figure 6.8 half duplex data master w rite ................................ ................................ ...................... 45 figure 6.9 half duplex data master read ................................ ................................ ....................... 45 figure 6.10 half duplex 3 - pin data master write ................................ ................................ ............ 46 figure 6.11 half duplex 3 - pin data master read ................................ ................................ ............. 46 figure 6.12 unmanaged mode transfer diagram ................................ ................................ ............. 47 figure 6.13 vnc1l mode data write ................................ ................................ ............................. 48 figure 6.14 vnc1l mode data read ................................ ................................ .............................. 48 figure 6.15 vnc1l compatible spi command and sta tus structure ................................ .................. 49 figure 6.16 spi slave mode timing ................................ ................................ ............................... 50 figure 6.17 spi master data read (vnc2 slave mode) ................................ ................................ .... 51 figure 6.18 spi slave mode data write ................................ ................................ ......................... 52 figure 6.19 spi slave mode status read ................................ ................................ ....................... 52 f igure 6.20 spi master block diagram ................................ ................................ ........................... 53 figure 6.21 typical spi master timing ................................ ................................ ........................... 55 figure 6.22 asynchronous fifo mode read / write cycle ................................ ................................ 60 figure 6.23 synchronous fifo mode read / write cycle ................................ ................................ .. 62 figure 6.24 pwm C timing diagram ................................ ................................ .............................. 64 figure 6.25 gpio port groups ................................ ................................ ................................ ...... 64 figure 7.1 usb modes ................................ ................................ ................................ ................. 65 figure 10.1 vnc2 schematic (mcu C u art interface) ................................ ................................ ..... 72 87 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 figure 11.1 package markings ................................ ................................ ................................ ...... 73 figure 11.2 markings C 32 qfn ................................ ................................ ................................ .... 73 figure 11.3 lqfp - 32 package dimensions ................................ ................................ ...................... 74 figure 11.4 qfn - 32 package dimensions ................................ ................................ ....................... 75 figure 11.5 lqfp - 48 packag e dimensions ................................ ................................ ...................... 76 figure 11.6 64 pin lqfp package details ................................ ................................ ....................... 78 figure 11.7 64 pin qfn package details ................................ ................................ ......................... 79 figure 11.8 all packages reflow solder profile ................................ ................................ ................ 80 88 copyright ? 2009 - 2011 future technology devices international limited d atasheet vinculum - ii embedded dual usb host controller ic version 1.5 document no.: ft_000138 clearance no.: ftdi# 143 appendix c C revision history document title: vinculum - ii embedded dual usb host controller ic datasheet document reference no.: ft _000 138 clearance no.: ftdi# 143 document folder : v inculum - ii document feedback: send feedback revision changes date prelim data sheet released as preliminary C subject to change before revised part numbers to rev b in section 1.2, added notes to C |
Price & Availability of VNC2-32L1B-REEL
 |
|
|
|
|
All Rights Reserved © IC-ON-LINE 2003 - 2022 |
| [Add Bookmark] [Contact Us] [Link exchange] [Privacy policy] |
|
Mirror Sites : [www.datasheet.hk]
[www.maxim4u.com] [www.ic-on-line.cn]
[www.ic-on-line.com] [www.ic-on-line.net]
[www.alldatasheet.com.cn]
[www.gdcy.com]
[www.gdcy.net] |