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| CXD3609R Timing Generator for Progressive Scan CCD Image Sensor Description The CXD3609R is a timing generator IC which generates the timing pulses for performing progressive scan using the ICX274 CCD image sensor. Features * Base oscillation frequency 57.2/72MHz * Electronic shutter function * Supports draft/monitoring mode * Trigger shutter function * Vertical driver for CCD image sensor Applications * Digital still cameras * Image processor Structure Silicon gate CMOS IC Applicable CCD Image Sensors ICX274 (Type 1/1.8, 2020K pixels) 48 pin LQFP (Plastic) Absolute Maximum Ratings * Supply voltage VDD Vss - 0.3 to +7.0 VL -10.0 to Vss VH VL - 0.3 to +26.0 * Input voltage VI Vss - 0.3 to VDD + 0.3 * Output voltage VO1 Vss - 0.3 to VDD + 0.3 VO2 VL - 0.3 to VSS + 0.3 VO3 VL - 0.3 to VH + 0.3 * Operating temperature Topr -20 to +75 * Storage temperature Tstg -55 to +150 Recommended Operating Conditions * Supply voltage VDDa 3.0 to 5.25 VDDb, VDDc 3.0 to 3.6 VM 0.0 VH 14.5 to 15.5 VL -7.0 to -8.0 * Operating temperature Topr -20 to +75 V V V V V V V C C Pin Configuration MCKO VSS5 TEST TRIG VDD5 SEN SCK SSI HR VR CKO CKI 36 VM V1 V4 V2A VH V2B V2C V3A VL V3B V3C SUB 37 38 39 40 41 42 43 44 45 46 47 48 1 VSS1 35 34 33 32 31 30 29 28 27 26 25 24 VSS4 23 ADCLK 22 OBCLP 21 CLPDM 20 PBLK 19 XSHD 18 XSHP 17 VDD4 16 VDD3 15 H2B 14 VSS3 13 H2A V V V V V C Groups of pins enclosed in the figure indicate sections for which power supply separation is possible. 2 RST 3 SNCSL 4 ID/EXP 5 WEN 6 SSGSL 7 VDD1 8 RG 9 VSS2 10 H1A 11 VDD2 12 H1B Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- E02634-PS CXD3609R Block Diagram 8 11 16 10 12 13 15 9 14 18 19 CKI XSHD XSHP VDD2 VDD3 VSS2 VSS3 H1A H1B H2A H2B RG 17 VDD4 20 PBLK 21 CLPDM CKI 26 Pulse Generator CKO 25 MCKO 30 1/2 22 OBCLP 23 ADCLK 24 VSS4 4 5 Selector Latch 38 V1 40 V2A Register 42 V2B 43 V2C 44 V3A Selector ID/EXP WEN SNCSL 3 SSI 31 SCK 32 SEN 33 SSGSL 6 V Driver 46 V3B 47 V3C 39 V4 48 SUB 41 VH 37 VM 45 VL TRIG 28 RST 2 SSG TEST 27 7 VDD1 29 VDD5 1 VSS1 36 VSS5 35 34 HR VR -2- CXD3609R Pin Description Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Symbol VSS1 RST SNCSL ID/EXP WEN SSGSL VDD1 RG VSS2 H1A VDD2 H1B H2A VSS3 H2B VDD3 VDD4 XSHP XSHD PBLK CLPDM OBCLP ADCLK VSS4 CKO CKI I/O -- I I O O I -- O -- O -- O O -- O -- -- O O O O O O -- O I GND Internal system reset input. High: Normal operation, Low: Reset control. Normally apply reset during power-on. Schmitt trigger input/protective diode on power supply side Control input used to switch sync system. High: CKI sync, Low: MCKO sync. With pull-down resistor Vertical direction line identification pulse output/exposure time identification pulse output. Switching possible using the serial interface data. (Default: ID) Memory write timing pulse output. Internal SSG enable. High: Internal SSG valid, Low: External sync valid. With pull-down resistor 3.3V power supply. (Power supply for common logic block) CCD reset gate pulse output. Logic phase adjustment possible using the serial interface data. GND CCD horizontal register clock output. Logic phase adjustment possible using the serial interface data. 5/3.3V power supply. (Power supply for H) CCD horizontal register clock output. Logic phase adjustment possible using the serial interface data. CCD horizontal register clock output. Logic phase adjustment possible using the serial interface data. GND CCD horizontal register clock output. Logic phase adjustment possible using the serial interface data. 5/3.3V power supply. (Power supply for H) 3.3V power supply. (Power supply for CDS) CCD precharge level sample-and-hold pulse output. Logic phase adjustment possible using the serial interface data. CCD data level sample-and-hold pulse output. Logic phase adjustment possible using the serial interface data. Pulse output for horizontal and vertical blanking period pulse cleaning. CCD dummy signal clamp pulse output. CCD optical black signal clamp pulse output. The horizontal OB pattern can be changed using the serial interface data. Clock output for analog/digital conversion IC. Logic phase adjustment possible using the serial interface data. GND Inverter output. Inverter input. -3- Description CXD3609R Pin No. 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Symbol TEST TRIG VDD5 MCKO SSI SCK SEN VR HR VSS5 VM V1 V4 V2A VH V2B V2C V3A VL V3B V3C SUB I/O I I -- O I I I I/O I/O -- I O O O -- O O O -- O O O Description IC test pin. normally fixed to GND. Trigger mode. Normally fix to power supply. 3.3V power supply. (Power supply for common logic block) System clock output for signal processing IC. Serial interface data input for internal mode settings. Schmitt trigger input/protective diode on power supply side. Serial interface data input for internal mode settings. Schmitt trigger input/protective diode on power supply side. Serial interface data input for internal mode settings. Schmitt trigger input/protective diode on power supply side. Vertical sync signal input/output. Horizontal sync signal input/output. GND GND (GND for vertical driver) CCD vertical register clock output. CCD vertical register clock output. CCD vertical register clock output. 15.0V power supply. (Power supply for vertical driver) CCD vertical register clock output. CCD vertical register clock output. CCD vertical register clock output. -7.5V power supply. (Power supply for vertical driver) CCD vertical register clock output. CCD vertical register clock output. CCD electronic shutter pulse output. With pull-down resistor -4- CXD3609R Electrical Characteristics DC Characteristics Item Supply voltage 1 Supply voltage 2 Supply voltage 3 Input voltage 11 Input voltage 22 Input voltage 3 Pins VDD2, VDD3 VDD4 VDD1, VDD5 RST, SSI, SCK, SEN Symbol VDDa VDDb VDDc Vt+ Vt- 0.7VDDc 0.3VDDc 0.8VDDc 0.2VDDc 0.8VDDc 0.2VDDc VDDc - 0.8 0.4 0.4 VDDb - 0.8 0.4 VDDc - 0.8 0.4 VDDc - 0.8 0.4 VDDc - 0.8 0.4 10.0 -5.0 5.0 -7.2 5.4 -4.0 Pull-in current where IOL = 2.4mA Pull-in current where IOL = 14.4mA (Within the recommended operating conditions) Conditions Min. 3.0 3.0 3.0 0.8VDDc 0.2VDDc Typ. 3.3 3.3 3.3 Max. 5.25 3.6 3.6 Unit V V V V V V V V V V V V V V V V V V V V V V V mA mA mA mA mA mA VIH1 SNCSL, SSGSL, TEST VIL1 TRIG VIH1 VIL1 VIH2 VIL2 VOH1 Feed current where IOH = -1.2mA VOL1 Input/output voltage VR, HR Output voltage 1 Output voltage 2 Output voltage 3 Output voltage 4 Output voltage 5 H1A, H1B, H2A, H2B VOH2 Feed current where IOH = -22.0mA VDDa - 0.8 VOL2 XSHP XSHD, VOH3 Feed current where IOH = -3.3mA , PBLK, ADCLK, OBCLP , VOL3 Pull-in current where IOL = 2.4mA CLPDM CKO RG, MCKO ID/EXP , WEN V2A/B/C, V3A/B/C, V1, V4 VOH4 Feed current where IOH = -6.9mA VOL4 VOL5 VOL6 IOL IOM1 IOM2 IOH IOSL IOSH Pull-in current where IOL = 4.8mA Pull-in current where IOL = 2.4mA Pull-in current where IOL = 4.8mA V1, V2A to C, V3A to C, V4 = -8.25V V1, V2A to C, V3A to C, V4 = -0.25V V2A to C, V3A to C = 0.25V V2A to C, V3A to C = 14.75V SUB = -8.25V SUB = 14.75V VOH5 Feed current where IOH = -3.3mA VOH6 Feed current where IOH = -2.4mA Output current 1 Output current 2 SUB 1 These input pins are Schmitt trigger inputs, and have a protective diode on the power supply side in the IC. Therefore, they do not support 5V input. 2 This input pin is with pull-down resistor in the IC. Note) The above table indicates the condition for 3.3V drive. -5- CXD3609R Inverter Input Characteristics for Base Oscillation Clock Duty Adjustment Item Logical Vth Input voltage Input amplitude CKI Pins Symbol LVth VIH VIL VIN fmax = 50MHz sine wave 0.3 0.7VDDc 0.3VDDc Conditions Min. Typ. VDDc/2 Max. Unit V V V Vp-p Note) Input voltage is the input voltage characteristics for direct input from an external source. Input amplitude is the input amplitude characteristics in the case of input through a capacitor. Switching Characteristics Item Symbol TTLM Rise time TTMH TTLH TTML Fall time TTHM TTHL VCLH Output noise voltage VCLL VCMH VCML Conditions VL to VM VM to VH VL to VH VM to VL VH to VM VH to VL (VH = 15.0V, VM = GND, VL = -7.5V) Min. 200 200 30 200 200 30 Typ. 350 350 60 350 350 60 Max. 500 500 90 500 500 90 1.0 1.0 1.0 1.0 Unit ns ns ns ns ns ns V V V V Notes) 1) The MOS structure of this IC has a low tolerance for static electricity, so full care should be given for measures to prevent electrostatic discharge. 2) For noise and latch-up countermeasures, be sure to connect a by-pass capacitor (0.1F or more) between each power supply pin (VH, VL) and GND. 3) To protect the CCD image sensor, clamp the SUB pin output at VH before input to the CCD image sensor. -6- CXD3609R Switching Waveforms TTMH 90% TTHM VH 90% V2A (V2B, V2C, V3A, V3B, V3C) TTLM 10% 90% 10% 90% TTML VM 10% 10% VL TTLM 90% V1 (V4) 10% 90% TTML VM 10% VL TTLH 90% 90% TTHL VH SUB 10% 10% VL Waveform Noise VM VCMH VCML VCLH VCLL VL -7- CXD3609R Measurement Circuit Serial interface data VR HR +3.3V -7.5V +15.0V 36 35 34 33 32 31 30 29 28 27 26 25 37 R1 C2 R1 C1 C2 C1 C2 C2 C2 C1 C2 C2 C1 C2 R1 C2 R2 C3 C1 C2 C2 C1 C2 C2 R1 38 39 40 41 42 43 44 R1 45 46 47 48 1 2 3 4 5 6 7 8 9 10 11 12 CXD3609R 24 23 22 21 20 19 18 17 16 15 14 13 C5 C5 C6 C6 C6 C6 C6 C6 C6 C6 CKI C2 C2 R1 C4 C5 C5 C1: 3300pF R1: 30 C2: 560pF R2: 10 C3: 820pF C4: 2pF C5: 97pF at 4-ch output 194pF at 2-ch output C6: 10pF -8- CXD3609R AC Characteristics AC characteristics between the serial interface clocks 0.8VDDc SSI 0.2VDDc SCK ts1 SEN SEN 0.2VDDc ts3 0.8VDDc 0.8VDDc th1 ts2 (Within the recommended operating conditions) Symbol Definition SSI setup time, activated by the rising edge of SCK SSI hold time, activated by the rising edge of SCK SCK setup time, activated by the rising edge of SEN SEN setup time, activated by the rising edge of SCK Min. 20 20 20 20 Typ. Max. Unit ns ns ns ns ts1 th1 ts2 ts3 Serial interface clock internal loading characteristics (1) Example: During progressive scan (high-speed sweep present) VR HR V2A Enlarged view HR 0.2VDDc V2A 0.8VDDc ts1 th1 0.2VDDc SEN Be sure to maintain a constantly high SEN logic level near the falling edge of the HR in the horizontal period during which V2A/B/C and V3A/B/C values take the ternary value and during that horizontal period. (Within the recommended operating conditions) Symbol Definition SEN setup time, activated by the falling edge of HR SEN hold time, activated by the falling edge of HR -9- Min. 0 53 Typ. Max. Unit ns s ts1 th1 Restriction for the operating frequency of 36MHz. CXD3609R Serial interface clock internal loading characteristics (2) Example: During progressive scan (high-speed sweep present) VR HR Enlarged view VR HR 0.2VDDc ts1 SEN 0.8VDDc th1 0.2VDDc Be sure to maintain a constantly high SEN logic level near the falling edge of VR. (Within the recommended operating conditions) Symbol Definition SEN setup time, activated by the falling edge of VR SEN hold time, activated by the falling edge of VR Min. 0 200 Typ. Max. Unit ns ns ts1 th1 Serial interface clock output variation characteristics Normally, the serial interface data is loaded to the CXD3609R at the timing shown in "Serial interface clock internal loading characteristics (1)" above. However, one exception to this is when the data such as STB is loaded to the CXD3609R and controlled at the rising edge of SEN. See "Description of Operation". SEN Output signal tpdPULSE 0.8VDDc (Within the recommended operating conditions) Symbol Definition Min. 10 Typ. Max. 100 Unit ns tpdPULSE Output signal delay, activated by the rising edge of SEN RST loading characteristics RST 0.8VDDc 0.2VDDc tw1 (Within the recommended operating conditions) Symbol Definition RST pulse width - 10 - Min. 35 Typ. Max. Unit ns tw1 CXD3609R VR and HR phase characteristics VR 0.2VDDc ts1 HR th1 0.2VDDc 0.2VDDc (Within the recommended operating conditions) Symbol Definition VR setup time, activated by the falling edge of HR VR hold time, activated by the falling edge of HR Min. 0 0 Typ. Max. Unit ns ns ts1 th1 HR loading characteristics HR 0.2VDDc ts1 th1 0.8VDDc 0.2VDDc MCKO MCKO load capacitance = 10pF (Within the recommended operating conditions) Symbol Definition HR setup time, activated by the rising edge of MCKO HR hold time, activated by the rising edge of MCKO Min. 13 0 Typ. Max. Unit ns ns ts1 th1 Output variation characteristics MCKO 0.8VDDc WEN, ID/EXP tpd1 WEN and ID/EXP load capacitance = 10pF (Within the recommended operating conditions) Symbol Definition Time until the above outputs change after the rise of MCKO Min. 20 Typ. Max. 60 Unit ns tpd1 - 11 - CXD3609R Description of Operation Pulses output from the CXD3609R are controlled mainly by the RST pin and by the serial interface data. The Pin Status Table is shown below, and the details of serial interface control are described on the following pages. Pin Status Table Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Symbol VSS1 RST SNCSL ID/EXP WEN SSGSL VDD1 RG VSS2 H1A VDD2 H1B H2A VSS3 H2B VDD3 VDD4 XSHP XSHD PBLK CLPDM OBCLP ADCLK VSS4 ACT ACT ACT ACT ACT ACT L L L L L L ACT L ACT ACT L L ACT L ACT L ACT ACT ACT ACT ACT ACT ACT L L ACT CAM SLP SST -- ACT ACT L L ACT -- L -- L -- L L -- L -- -- L L L L L L -- L L L L L L ACT ACT H H H ACT L ACT L L ACT ACT L ACT L ACT ACT ACT L L ACT L ACT L L ACT STB RST Pin No. 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Symbol CKO CKI TEST TRIG VDD5 MCKO SSI SCK SEN VR HR VSS5 VM V1 V4 V2A VH V2B V2C V3A VL V3B V3C SUB ACT ACT ACT VH VH VH ACT ACT ACT VH VH VH ACT ACT ACT VM VM VH ACT ACT ACT ACT ACT ACT ACT ACT ACT ACT L L ACT ACT CAM ACT ACT SLP ACT ACT SST L ACT -- ACT -- L ACT ACT ACT L L -- -- VM VM VM -- VM VM VM -- VM VM VH VH VH VH VL VL VL VH VH VH VM VM VL VM VM VH VM VL VM L ACT ACT ACT L L ACT DIS DIS DIS H H ACT DIS STB L ACT RST ACT ACT 1 It is for output. For input, all items are "ACT". Note) ACT means that the circuit is operating, and DIS means that loading is stopped. L indicates a low output level, and H a high output level in the controlled status. Also, VH, VM and VL indicate the voltage levels applied to VH (Pin 41), VM (Pin 37) and VL (Pin 45), respectively, in the controlled status. Note that in sleep mode and standby mode, VH and VL power supply should be stopped together with the CCD image sensor. - 12 - CXD3609R Serial Interface Control The CXD3609R basically loads and reflects the serial interface data sent in the following format. The position at which the data is reflected differs depending on the data, but normally the data is reflected at the rising edge of SEN, the falling edge of VR, or immediately before the readout block. See the load column for the reflection position of each data. Note that as an exception, data loading is subject to restrictions during trigger shutter drive and long-time exposure. See these separate items for details. SSI SCK SEN 00 01 02 03 04 05 06 07 41 42 43 44 45 46 47 There are three categories of serial interface data: the CXD3609R drive control data (hereafter "control data"), electronic shutter data (hereafter "shutter data") and trigger shutter data (hereafter "TRIG data"). The details of each data are described below. - 13 - CXD3609R Control Data Data Symbol Chip enbale Category switching -- Drive mode switching Base oscillation switching TRIG control switching Electronic shutter mode switching -- H block stop control (2ch) H block logic phase adjustment RG logic phase adjustment XSHP logic phase adjustment XSHD logic phase adjustment -- ID/EXP output switching OBCLP waveform pattern switching ADCLK logic phase adjustment Standby control -- -- See Drive mode. 28MHz OFF 36MHz ON Function Data = 0 Data = 1 RST All 0 All 0 -- All 0 All 0 0 0 All 0 All 0 0 All 0 All 0 All 0 All 0 0 0 All 0 1 0 All 0 -- All 0 D00 to CHIP D07 D08, CTG D09 D10, D11 -- 10000001 Enabled Other values Disabled See Category. D12 to MODE D15 D16 OSCH D17 TRIGSL D18, SMD D19 D20 to D22 -- See Electronic shutter mode switching. -- 4ch -- 2ch D23 STPHS D24, LDHS D25 D26, LDRG D27 D28, LDSP D29 D30, LDSD D31 D32 -- D33 EXP D34, PTOB D35 D36, LDAD D37 D38, STB D39 D40 to D47 -- See Logic phase adjustment. See Logic phase adjustment. See Logic phase adjustment. See Logic phase adjustment. -- ID -- EXP See OBCLP waveform pattern. See Logic phase adjustment. See Standby. -- - 14 - CXD3609R Shutter Data Data Symbol Chip enable Category switching -- Electronic shutter vertical period specification Electronic shutter horizontal period specification -- High-speed shutter position specification Function Data = 0 Data = 1 RST All 0 All 0 -- All 0 All 0 All 0 All 0 All 0 D00 to CHIP D07 D08, CTG D09 D10 to D13 -- 10000001 Enabled Other values Disabled See Category. -- D14 to SVR D23 D24 to SHR D35 D36, D37 -- See Electronic shutter. See Electronic shutter. -- -- D38 to SPL D47 See Electronic shutter. - 15 - CXD3609R TRIG Data Data Symbol Chip enable Category switching -- (Under trigger shutter drive) High-speed sweep switching (Under trigger shutter drive) Electronic shutter horizontal period specification (Under trigger shutter drive) SG generation position specification -- Electronic shutter fine adjustment specification -- Present Function Data = 0 Data = 1 RST All 0 All 0 -- Not present All 0 All 0 All 0 All 0 All 0 All 0 D00 to CHIP D07 D08, CTG D09 D10, D11 -- 10000001 Enabled Other values Disabled See Category. D12 TRHS D13 to TRSH D23 D24 to TRSG D35 D36 to D40 -- See Trigger shutter. See Trigger shutter. -- -- D42 to SINT D47 See Electronic shutter. - 16 - CXD3609R Detailed Description of Each Data Shared data: D08 and D09 CTG [Category] Of the data provided to the CXD3609R by the serial interface, the CXD3609R loads D10 and subsequent data to each data register as shown in the table below according to the combination of D08 and D09 . D09 0 0 1 1 D08 0 1 0 1 Description of operation Loading to control data register Loading to shutter data register Loading to TRIG data register Test mode Note that the CXD3609R can apply these categories consecutively within the same vertical period. However, care should be taken as the data is overwritten if the same category is applied. - 17 - CXD3609R Control data: D12 to D15 MODE [Drive mode] The CXD3609R realizes various drive modes using control data D12 to D15 MODE. The drive mode-related bits are loaded to the CXD3609R and reflected at the falling edge of VR. The details are described below. The various basic drive modes are switched using the upper two bits D12 and D13 of the control data MODE. D15 0 0 1 1 D14 0 1 0 1 Description of operation (D13/12) = (0, 0) Draft Draft Center scan 1 Center scan 2 (D13/12) = (0, 1) Monitoring Monitoring AF1 AF2 (D13/12) = (1, 0) Progressive scan (highspeed sweep not present) Progressive scan (highspeed sweep not present) Center scan 3 Progressive scan (highspeed sweep present) (D13/12) = (1, 1) Addition 1 Addition 1 Addition 1 Addition 1 Draft mode is the mode called 2/4-line readout mode in the ICX274. Monitoring mode is the mode called 2/8-line readout mode in the ICX274. This is a drive mode with an even higher frame rate than draft mode that can be used for purposes such as monitoring and auto focus (AF). Progressive scan mode is the ICX274 drive mode in which the data for all lines are read. Vertical transfer highspeed sweep period present/not present can be selected. See the ICX274 data sheet for details of the readout lines for other modes. The periods and Timing Charts when each mode is driven with the internal SSG are listed below. Mode Drive frequency 28 36 Progressive scan - High-speed sweep - Center scan 3 28 36 28 36 Draft 28 36 Addtion 28 36 Center scan 1 28 36 Center scan 2 28 36 Monitoring 28 36 AF1 28 36 AF2 28 36 60 2352ck 30 20 30 fps 10 15 1920ck Internal SSG period Hotizontal Vertical 1492H + 1860ck 1251H + 480ck 1741H + 1530ck 1563H + 1021ck x 2 497H + 1260ck 625H + 1200ck 692H + 810ck 870H + 900ck 692H + 810ck 2070ck 870H + 900ck 461H + 1230ck 580H + 601ck 461H + 1230ck 580H + 601ck 405H + 1470ck x 2 510H + 1680ck 202H + 1323ck x 2 255H + 840ck 101H + 1323ck 127H + 1596ck Chart-1 Chart-11 V-Chart Normal H-Chart High-speed sweep -- -- Chart-4 Chart-7 Chart-7.1 Chart-2 -- Chart-10 Chart-13 Chart-5 Chart-5.1 Chart-6 Chart-6.1 Chart-3 Chart-8 Chart-8.1 Chart-9 Chart-9.1 -- -- Chart-15 Chart-19 Chart-28 Chart-27 -- Chart-26 Chart-4 Chart-23 Frame shift Readout Progressive scan Chart-16 Chart-20 Chart-29 Chart-25 Chart-24 Chart-12 Chart-17 Chart-21 Chart-30 120 Chart-18 Chart-22 - 18 - CXD3609R Control data: D16 OSCH [Drive frequency pattern switching] This switches the internal SSG VR pattern. Change the base oscillation frequency applied to CKI to match each pattern. D14 0 1 Description of operation 28MHz operation drive 36MHz operation drive Control data: D17 TRIGSL [TRIG control switching] This sets the TRIG pulse standby mode for performing TRIG drive. See TRIG control for a detailed description of TRIG drive. Control data: D18 and D19 SMD [Electronic shutter mode switching] This enables the various electronic shutter settings. See Shutter control for a detailed description of shutter drive. D19 0 0 1 1 D18 0 1 0 1 Description of operation Electronic shutter off Electronic shutter on Readout stopped setting, electronic shutter off Readout stopped setting, a part of electronic shutter enabled Control data: D23 STPHS [H block stop control] This adjusts the driving capability by outputting the H driver output on 4ch or 2ch. During 2ch output, the H1B and H2B pins are stopped. In addition, the load applied to the CXD3609R increases during 2ch output, so use of an external driver should also be considered depending on the situation. D23 0 1 Description of operation 4ch output 2ch output Control data: D24 and D25 LDHS [H block logic phase] This indicates the H block logic phase adjustment data. The default is 0. D25 0 0 1 1 D24 0 1 0 1 Degree of adjustment () 0 90 180 270 Control data: D26 to D31 LDRG, LDSP, LDSD [Each pulse logic phase] These indicate the RG, XSHP and XSHD logic phase adjustment data. The adjustment width is the same as for LDHS. The default is 0. - 19 - CXD3609R Control data: D33 EXP [ID/EXP output switching] The ID/EXP pin (Pin 4) output can be switched to the ID pulse or the EXP pulse using D33 EXP. The default is the "ID" pulse. See the Timing Charts for the ID pulse. The EXP pulse indicates the exposure time when it is high. Normally, high is indicated from the falling edge of the last SUB to the falling edge of the next SG. Note that the EXP pulse changes as follows when SUB does not rise. Mode Draft, 2-line addition 2, center scan 1 2-line addition 1, center scan 2 Monitoring, progressive scan, center scan 3, AF1, AF2 Last SG generation position 600, 750ck 1128, 1278ck 1100, 1250ck EXP pulse rise point 804ck 1296ck 1322ck Also, switching between ID and EXP is performed at the ID reset timing (the ID transition point during the horizontal period with each V1A/B/C and V3A/B/C ternary output), and the pulse is also reset to low at this point. See the explanatory diagrams under Electronic shutter for an image of ID/EXP pulse changes. Control data: D34 and D35 PTOB [OBCLP waveform pattern] This indicates the OBCLP waveform pattern. The default is "Normal". D35 0 0 1 1 D34 0 1 0 1 Waveform pattern (Normal) (Shifted rearward) (Shifted forward) (Wide) Control data: D36 and D37 LDAD [ADCLK logic phase] This indicates the ADCLK logic phase adjustment data. The default is "90" relative to MCKO. D37 0 0 1 1 D36 0 1 0 1 Degree of adjustment () 0 90 180 270 Control data: D38 and D39 STB [Standby] The operating mode is switched as follows. However, the standby bits are loaded to the CXD3609R and control is applied immediately at the rising edge of SEN. D39 X 0 1 1 D38 0 1 0 1 Symbol CAM SLP SST STB Operating mode Normal operating mode Sleep mode Siesta mode Standby mode See the Pin Status Table for the pin status in each mode. - 20 - CXD3609R Shutter data: [Electronic shutter] The CXD3609R realizes various electronic shutter functions by using shutter data D18 and D19 SMD and shutter data D14 to D23 SVR, D24 to D35 SHR, D38 to D47 SPL and TRIG data D42 to D47 SINT. These functions are described in detail below. First, the various modes are shown below. These modes are switched using control data D13 and D14 SMD. D14 0 0 1 1 D13 0 1 0 1 Description of operation Electronic shutter stopped mode High-speed/low-speed shutter mode Readout stopped mode, Electronic shutter stopped mode Readout stopped mode, High-speed shutter mode Valid Invalid Invalid Valid Invalid Valid SVR SHR SPL SINT Invalid Invalid Valid Valid Readout block stop [Electronic shutter stopped mode] During this mode, all shutter data items are invalid. SUB is not output in this mode, so the shutter speed is the accumulation time for one field. [High-speed/low-speed shutter mode] The electronic shutter data is expressed as shown in the table below using D24 to D35 SHR as an example. However, MSB (D35) is a reserve bit for the future specification, and it is handled as a dummy on this IC. MSB D35 D34 D33 D32 X 0 1 0 1 1 1 0 0 0 0 1 LSB D31 D30 D29 D28 D27 D26 D25 D24 C 3 1 SHR is expressed as 1C3h . Description Number of vertical periods specification (000h SVR 3FFh) Number of horizontal periods specification (000h SHR 3FFh) Vertical period specification for high-speed shutter operation (000h SPL 3FFh) SUB position specification (mentioned later for details) During this mode, the shutter data items have the following meanings. Symbol SVR SHR SPL SINT Data Shutter: D14 to D23 Shutter: D24 to D35 Shutter: D38 to D47 TRIG: D42 to D47 Note) The bit data definition area is assured in terms of the CXD3609R functions, and does not assure the CCD characteristics. Description of SVR, SHR and SPL Operations The period during which SVR and SHR are specified together is the shutter speed. An image of the exposure time calculation formula is shown below. In actual operation, the precise exposure time is calculated from the operating frequency, VR and HR periods, decoding value during the horizontal period, and other factors. Here, SG means sensor gate, that is to say, ternary value of V2A/B/C and V3A/B/C. (Exposure time) = SVR x (1V period) + {(number of HR per 1V) - (SHR + 1)} x (1H period) + (distance from SUB to SG during the readout period) - 21 - CXD3609R Concretely, when specifying high-speed shutter, SVR is set to "000h". (See the figure.) During low-speed shutter, or in other words when SVR is set to "001h" or higher, the serial interface data is not loaded until this period is finished. The vertical period indicated here corresponds to one field in each drive mode. In addition, the number of horizontal periods applied to SHR can be considered as (number of SUB pulses - 1). VR SHR SVR V2A SUB WEN EXP SMD SVR SHR 00 01 002h 10Fh 00 000h 050h Exposure time Further, SPL can be used during this mode to specify the SUB output at the optional vertical period during the low-speed shutter period. In the case below, SUB is output based on SHR at the SPL vertical period out of (SVR + 1) vertical periods. SPL 000 VR SHR V2A SUB WEN EXP SMD SPL SVR SHR 00 01 001h 002h 10Fh 00 000h 000h 0A3h 001 SVR 002 Exposure time Incidentally, SPL is counted as "000h", "001h", "002h" and so on in conformance with SVR. At this time even if SPL > SVR is set, operation conforms to the state when SPL = SVR. Using this function it is possible to achieve smooth exposure time transitions when changing from low-speed shutter to high-speed shutter or vice versa. - 22 - CXD3609R Description of SINT Operation The exposure time can be finely adjusted by specifying the TRIG data: D42 to D47 SINT in this setting. Concretely, this specifies the SUB output position during the horizontal period where the last SUB specified by SHR is output. The setting values are shown in the table below. When this function is disabled, the internal counter is also stopped. This function makes it possible to smoothly shift the exposure time even during ultra-high-speed shutter operation. 0 HR Progressive scan, center scan 3 Monitoring, AF1, AF2 Draft, 2-line addition, center scan 1, center scan 2 1920/2352/2070 P A B C D L M N O M N O P A J K L O P A B C K L M N Position A B C D E F G H I J K L M N O P Serial bits D47/D46 Progressive scan, center scan 3 Monitoring, AF1, AF2 Draft, 2-line addtion, center scan 1, center scan 2 position 394 523 652 781 910 1039 1168 1297 1426 1555 1684 1813 1942 2071 (1) 2200 (130) 2329 (259) D45 D44 D43 D42 position position position position position 0 0 0 0 187 247 619 679 334 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 307 427 547 667 787 907 1027 1147 1267 1387 1507 1627 1747 1867 1987 (67) 367 487 607 727 847 967 1087 1207 1327 1447 1567 1687 1807 1927 (7) 2047 (127) 766 913 1060 1207 1354 1501 1648 1795 1942 2089 2236 2383 (31) 2530 (178) 2677 (325) 2824 (472) 826 973 1120 1267 1414 1561 1708 1855 2002 2149 2296 2443 (91) 2590 (238) 2737 (385) 2884 (532) 463 592 721 850 979 1108 1237 1366 1495 1624 1753 1882 2011 2140 (76) 2269 (205) - 23 - CXD3609R [Readout stopped setting, electronic shutter stopped] This controls the V2A/B/C and V3A/B/C ternary outputs (readout pulse block). When this control is active, ternary output and modulation are stopped in the readout block. This realizes long-time exposure that is not limited by the internal counter. VR V2A SUB VCK WEN EXP SMD 00 10 00 Exposure time [Readout stopped setting, high-speed shutter enabled] This controls the V2A/B/C and V3A/B/C ternary outputs (readout pulse block). When this control is active, ternary output and modulation are stopped in the readout portion. In addition, electronic shutter SHR and SINT are enabled. This realizes optional long-time exposure that is not limited by the internal counter. VR V2A SUB VCK WEN EXP SMD SHR 00 11 10Fh 00 050h Exposure time - 24 - CXD3609R [TRIG control] The CXD3609R has a trigger shutter function for loading images at an optional timing. This control is different from the conventional electronic shutter in that it is a shutter mode that it allows optional setting of the exposure start time. When the trigger signal is applied to the TRIG pin with control data D17 TRIGSL set to ON (trigger standby mode), the TRIG data is loaded and reflected at the next HR falling edge. In addition, the exposure time (shutter speed) for this control is set by TRIG data D13 to D23 TRSH and D24 to D35 TRSG. In standby mode, SUB rises every 1H, and the charge accumulated in the sensor is constantly discarded. In addition, the V clocks (V1 to V4) also constantly operate, so the undesired charge inside the vertical CCD is eliminated. Therefore, the SG pulse stops until the external trigger is input, which means that the video cannot be monitored until the external trigger is input and signal readout is performed. After the external trigger is input, the preset number of shutter pulses and SG are generated. Note that when the serial data specifies number of SUB pulses > SG generation position, operation is the same as when number of SUB pulses = SG generation position. When the SG position is not input 2H or more before the VR falling edge, VR is not accepted internally and trigger drive continues. When exposure is completed under any conditions other than the above, the exposure charge is transferred and output using the falling edge of VR as the reference. In this case, V1 to V4, CLPDM, CLPOB, PBLK and other pulses outside the readout block are output in the same manner as progressive scan mode. When transfer finishes, the trigger standby mode repeats. Note that during trigger standby mode and trigger drive, serial data other than the following are not accepted, regardless of VR. In addition, TRIG is not accepted during trigger drive. Serial data accepted even during trigger standby and drive [Control data] STB, [Control data] TRIGSL, [TRIG data] TRHS, TRSH and TRSG Recovery to normal mode returns to the mode before entering the trigger standby mode. TRIG Trigger input not accepted VR TRSG V2A TRSH SUB WEN EXP TRIGSL TRHS TRSG TRSH MODE Progressive scan mode Exposure time 0 0 100h 1C3h 0100 Trigger standby mode Trigger drive Trigger out drive Trigger standby mode Progressive scan mode 0 0 1C3h 0 0 1 0 TRSH - 25 - Chart-1 * ICX274 Vertical Direction Timing Chart 28MHz (36MHz) drive MODE Progressive scan mode - high-speed sweep not present - Applicable CCD image sensor VR 3 1251 3 1251 1493 (1252) 1 HR SUB A A V1 V2A/B/C V3A/B/C 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 PBLK OBCLP CLPDM ID/EXP WEN The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 1493H, and at 1493H one horizontal period is 1860ck. During 36MHz drive, the VR period is 1252H, and at 1252H one horizontal period is 480ck. 1235 1236 1235 1236 CCD OUT 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 - 26 - V4 1493 (1252) 1 CXD3609R Chart-2 * ICX274 Vertical Direction Timing Chart MODE Draft mode 28MHz (36MHz) drive Applicable CCD image sensor VR 624 624 693 (871) 1 2 HR SUB A A V1 V2C V2A/B V3C 1232 1235 1236 5 6 9 10 3 4 7 8 CCD OUT PBLK OBCLP CLPDM ID/EXP WEN The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 693H, and at 693H one horizontal period is 810ck. During 36MHz drive, the VR period is 871H, and at 871H one horizontal period is 900ck. 1231 1235 1236 5 6 9 10 3 4 7 8 - 27 - V3A/B V4 693 (871) 1 2 CXD3609R Chart-3 * ICX274 Vertical Direction Timing Chart MODE Monitoring mode 28MHz (36MHz) drive Applicable CCD image sensor VR 313 407 (511) 1 2 313 HR SUB A V1 V2A V2B/C V3A 3 8 1 6 9 14 17 22 25 1225 1230 1233 CCD OUT PBLK OBCLP CLPDM ID/EXP WEN The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 407H, and at 406H and 407H one horizontal period is 1470ck. During 36MHz drive, the VR period is 511H, and at 511H one horizontal period is 1680ck. 1225 1230 1233 3 8 1 6 9 14 17 22 25 - 28 - V3B/C V4 407 (511) 1 2 A CXD3609R Chart-4 * ICX274 Vertical Direction Timing Chart MODE Progressive scan mode - high-speed sweep present - 28MHz (36MHz) drive Applicable CCD image sensor VR 71 1322 74 71 74 1322 1742 (1565) 1 HR SUB A D A D V1 V2A/B/C V3A/B/C PBLK OBCLP CLPDM ID/EXP WEN The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 1742H, and at 1742H one horizontal period is 1530ck. During 36MHz drive, the VR period is 1565H, and at 1564H and 1565H one horizontal period is 1021ck. 1235 1236 1235 1236 CCD OUT 1 2 3 4 5 6 7 8 9 10 1 2 3 1 2 3 4 5 6 7 8 9 10 1 2 3 - 29 - V4 1742 (1565) 1 CXD3609R Chart-5 Center scan 1 mode 28MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 16 18 452 460 462 1 2 16 18 188 191 192 195 452 460 HR SUB D A B D V1 V2C V2A/B V3C 1052 1055 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 462H one horizontal period is 1230ck. 188 191 192 195 CCD OUT 1052 1055 - 30 - V3A/B V4 462 1 2 A B Chart-5.1 Center scan 1 mode 36MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 7 9 577 578 581 1 2 7 55 56 59 60 9 577 578 HR SUB D A B D 581 1 2 A B V1 V2C V2A/B V3C 1183 1184 1187 1188 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 581H one horizontal period is 601ck. 1183 1184 1187 1188 CCD OUT 55 56 59 60 - 31 - V3A/B V4 Chart-6 Center scan 2 mode 28MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 16 18 454 462 1 2 16 18 186 188 189 191 190 192 193 195 454 HR SUB B D A B D V1 V2C V2A/B V3C PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 462H one horizontal period is 1230ck. 1050 1052 1053 1055 186 188 189 191 190 192 193 195 1046 1048 1049 1051 1050 1052 1053 1055 - 32 - V3A/B V4 CCD OUT 462 1 2 A Chart-6.1 Center scan 2 mode 36MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 7 9 577 578 581 1 2 7 9 53 54 57 58 55 56 59 60 1181 1182 1185 1186 577 578 HR SUB B D A B D V1 V2C V2A/B V3C 55 56 59 60 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 581H one horizontal period is 601ck. 1181 1182 1185 1186 53 54 57 58 CCD OUT 1183 1184 1187 1188 1183 1184 1187 1188 - 33 - V3A/B V4 581 1 2 A Chart-7 Center scan 3 mode 28MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 33 35 479 497 498 1 2 33 35 397 398 479 HR SUB B D A B D V1 V2A/B/C V3A/B/C 839 840 397 398 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 498H one horizontal period is 1260ck. 839 840 - 34 - V4 CCD OUT 497 498 1 2 A Chart-7.1 Center scan 3 mode 36MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 28 30 610 625 626 1 2 28 30 329 330 610 HR SUB B D A B D V1 V2A/B/C V3A/B/C 907 908 329 330 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 626H one horizontal period is 1200ck. 907 908 - 35 - V4 CCD OUT 625 626 1 2 A Chart-8 AF1 mode 28MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 20 20 22 191 202 204 1 2 22 286 289 191 202 HR SUB B D A B D V1 V2A V2B/C V3A 953 958 286 289 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 203H and 204H one horizontal period is 1323ck. 953 958 - 36 - V3B/C V4 CCD OUT 204 1 2 A Chart-8.1 AF1 mode 36MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 249 12 14 255 256 1 2 12 14 153 158 249 HR SUB B D A B D V1 V2A V2B/C V3A 1086 1089 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 256H one horizontal period is 840ck. 153 158 1086 1089 - 37 - V3B/C V4 CCD OUT 255 256 1 2 A Chart-9 AF2 mode 28MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 36 38 81 101 102 1 2 36 38 537 542 81 HR SUB D A B D 101 102 1 2 A B V1 V2A V2B/C V3A 702 705 537 542 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 102H one horizontal period is 1323ck. 702 705 - 38 - V3B/C V4 CCD OUT Chart-9.1 AF2 mode 36MHz drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 32 34 32 109 127 128 1 2 34 473 478 109 HR SUB B D A B D V1 V2A V2B/C V3A 473 478 PBLK OBCLP CLPDM ID/EXP WEN CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. At 128H one horizontal period is 1596ck. 766 769 766 769 - 39 - V3B/C V4 CCD OUT 127 128 1 2 A Chart-10 2-line addition mode 28MHz (36MHz) drive * ICX274 Vertical Direction Timing Chart MODE Applicable CCD image sensor VR 626 626 693 (871) 1 2 HR SUB A A V1 V2C V2A/B V3C 1 2 35 46 79 8 10 13 24 57 68 1 2 PBLK OBCLP CLPDM ID/EXP WEN The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 693H, and at 693H one horizontal period is 810ck. During 36MHz drive, the VR period is 871H, and at 871H one horizontal period is 900ck. 1229 1230 1233 1234 1229 1231 1230 1232 1233 1235 1234 1236 3 4 7 8 1 2 5 6 CCD OUT 1231 1232 1235 1236 5 6 9 10 3 4 7 8 - 40 - V3A/B V4 693 (871) 1 2 CXD3609R Chart-11 * ICX274 Horizontal Direction Timing Chart 28MHz (36MHz) drive Center scan 3 mode 28MHz (36MHz) drive 100 200 300 400 MODE Progressive scan mode - high-speed sweep present/not present - Applicable CCD image sensor 1920 0 HR MCKO 256 284 296 70 106 142 88 187 247 284 178 160 124 52 H1A/B 4 H2A/B V1 V2A/B/C 52 V3A/B/C V4 - 41 - 258 158 158 SUB 52 PBLK 20 44 OBCLP (1) 10 34 OBCLP (2) 26 50 OBCLP (3) 10 50 282 OBCLP (4) CLPDM ID/EXP WEN The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. ID/EXP and WEN are output at the timings shown above at the vertical positions shown in Chart-1 and Chart-7. CXD3609R Chart-12 Monitoring mode 28MHz (36MHz) drive AF1 and AF2 mode 28MHz (36MHz) drive 200 300 500 700 400 600 800 * ICX274 Horizontal Direction Timing Chart MODE Applicable CCD image sensor 2352 0 100 HR MCKO 688 716 728 214 268 250 304 394 538 484 466 520 610 619 679 716 574 592 340 322 376 430 286 232 196 178 448 358 412 502 556 160 52 H1A/B 4 H2A/B 70 124 V1 106 V2A/B/C 52 142 V3A/B/C 88 V4 - 42 - 158 158 SUB 52 PBLK 20 44 OBCLP (1) 10 34 OBCLP (2) 26 50 OBCLP (3) 10 50 690 714 OBCLP (4) CLPDM ID/EXP WEN The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. ID/EXP and WEN are output at the timings shown above at the vertical positions shown in Chart-3, Chart-8 and Chart-9. CXD3609R Chart-13 * ICX274 Horizontal Direction Timing Chart 2-line addition mode 28MHz (36MHz) drive Center scan 1 and center scan 2 mode 28MHz (36MHz) drive 100 300 400 200 500 MODE Draft mode 28MHz (36MHz) drive Applicable CCD image sensor 2070 0 HR MCKO 406 434 446 124 214 160 250 304 286 232 322 334 394 434 196 178 142 106 268 52 H1A/B 4 H2A/B 70 V1 V2A/B/C 52 V3A/B/C 88 V4 - 43 - 158 158 SUB 52 PBLK 20 44 OBCLP (1) 10 34 OBCLP (2) 26 50 OBCLP (3) 10 50 408 432 OBCLP (4) CLPDM ID/EXP WEN The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. ID/EXP and WEN are output at the timings shown above at the vertical positions shown in Chart-2, Chart-5, Chart-6 and Chart-10. CXD3609R Chart-14 * ICX274 Horizontal Direction Timing Chart (D: high-speed sweep) 28MHz (36MHz) drive MODE Progressive scan mode - high-speed sweep present - Applicable CCD image sensor 1920 0 200 300 500 1800 400 100 71H 1ck HR MCKO 256 284 296 160 196 1708 268 340 412 484 1744 1780 232 304 376 448 1816 1852 1888 4 52 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 250 322 358 394 466 502 1726 1762 1798 1834 1870 1906 70 106 V2A/B/C 160 1708 196 232 268 304 340 376 412 448 484 1744 1780 1816 1852 1888 52 88 124 - 44 - 142 178 214 250 286 322 358 394 430 466 502 #2 #4 #6 #5 #3 V3A/B/C 1726 1762 1798 1834 1870 1906 70 106 V4 #1864 #1865 #1866 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-15 * ICX274 Horizontal Direction Timing Chart (D: high-speed sweep) MODE Center scan 1 and center scan 2 mode 28MHz drive Applicable CCD image sensor 2070 0 200 300 500 1900 2000 400 460H or 462H 1 100 HR MCKO 406 434 446 160 196 1906 268 340 412 232 304 376 448 484 1942 1978 2014 4 52 52 H1A/B 4 H2A/B 52 88 124 V1 178 214 286 430 250 322 358 394 466 502 1924 1960 1996 2032 70 106 142 V2A/B/C 160 196 232 268 304 340 376 412 448 484 1906 1942 1978 2014 52 88 124 - 45 - 178 214 250 286 322 358 394 430 466 502 #2 #4 #5 #6 #3 V3A/B/C 1924 1960 1996 2032 70 106 142 V4 #228 #229 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-15.1 Horizontal Direction Timing Chart (D: high-speed sweep) Center scan 1 and center scan 2 mode 36MHz drive 2070 0 200 300 500 1900 2000 400 100 581H 1 (2070) HR MCKO 406 434 446 160 1870 196 232 304 376 448 484 1924 1960 1996 268 340 412 4 52 52 H1A/B 4 H2A/B 52 88 124 V1 178 214 250 286 322 358 394 430 466 502 1906 1942 1978 2014 70 106 142 V2A/B/C 160 1870 196 232 268 304 340 376 412 448 484 1924 1960 1996 52 88 124 - 46 - 178 214 250 286 322 358 394 430 466 502 #2 #4 #6 #5 #3 V3A/B/C 1906 1942 1978 2014 70 106 142 V4 #84 #85 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-16 Center scan 3 mode 28MHz drive * ICX274 Horizontal Direction Timing Chart (D: high-speed sweep) MODE Applicable CCD image sensor 1920 0 200 300 500 1800 400 100 497H 1 HR MCKO 256 284 296 160 196 1756 268 340 412 232 304 376 448 484 1792 1828 1864 4 52 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 250 322 358 394 466 502 1774 1810 1846 1882 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 1756 1792 1828 1864 52 88 124 - 47 - 142 178 214 250 286 322 358 394 430 466 502 #2 #4 #6 #5 #3 V3A/B/C 1774 1810 1846 1882 70 106 V4 #478 #479 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-16.1 Horizontal Direction Timing Chart (D: high-speed sweep) Center scan 3 mode 36MHz drive 1920 0 200 300 500 1800 400 100 625H 1 HR MCKO 256 284 296 160 1756 196 232 268 304 340 376 412 448 484 1792 1828 1864 4 52 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 358 250 322 394 466 502 1774 1810 1846 1882 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 1756 1792 1828 1864 52 88 124 V3A/B/C 142 178 214 250 286 322 358 394 430 466 502 1774 1810 1846 1882 - 48 - #2 #4 #6 #5 #3 70 106 V4 #398 #399 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-17 AF1 mode, 28MHz drive * ICX274 Horizontal Direction Timing Chart (D: high-speed sweep) MODE Applicable CCD image sensor 2352 0 200 300 500 2200 2300 400 100 202H 1 HR MCKO 52 4 160 2164 196 232 268 304 340 376 412 448 484 2200 2236 2272 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 358 250 322 394 466 502 2182 2218 2254 2290 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 2164 2200 2236 2272 52 88 124 - 49 - 142 178 214 250 286 322 358 394 430 466 502 #2 #4 #6 #5 #3 V3A/B/C 2182 2218 2254 2290 70 106 V4 #357 #358 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-17.1 Horizontal Direction Timing Chart (D: high-speed sweep) AF1 mode, 36MHz drive 2352 0 200 300 500 2200 2300 400 100 255H 1 HR MCKO 52 4 160 196 268 340 412 484 232 304 376 448 2188 2224 2260 2296 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 250 322 358 394 466 502 2206 2242 2278 2314 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 2188 2224 2260 2296 52 88 124 - 50 - 142 178 214 250 286 322 358 394 430 466 502 #2 #4 #6 #5 #3 V3A/B/C 2206 2242 2278 2314 70 106 V4 #194 #195 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-18 AF2 mode, 28MHz drive * ICX274 Horizontal Direction Timing Chart (D: high-speed sweep) MODE Applicable CCD image sensor 2352 0 200 300 500 2200 2300 400 100 101H 1 HR MCKO 52 4 160 196 268 340 412 2164 232 304 376 448 484 2200 2236 2272 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 250 322 358 394 466 502 2182 2218 2254 2290 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 2164 2200 2236 2272 52 88 124 V3A/B/C 142 178 214 250 286 322 358 394 430 466 502 2182 2218 2254 2290 - 51 - #2 #4 #5 #6 #3 70 106 V4 #651 #652 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-18.1 Horizontal Direction Timing Chart (D: high-speed sweep) AF2 mode, 36MHz drive 2352 0 200 300 500 2200 2300 400 100 127H 1 HR MCKO 52 4 160 196 268 340 412 484 232 304 376 448 2188 2224 2260 2296 52 H1A/B 4 H2A/B 52 88 124 V1 142 214 286 430 178 250 322 358 394 466 502 2206 2242 2278 2314 70 106 V2A/B/C 160 196 232 268 304 340 376 412 448 484 2188 2224 2260 2296 52 88 124 V3A/B/C 142 178 214 250 286 322 358 394 430 466 502 2206 2242 2278 2314 - 52 - #2 #4 #6 #5 #3 70 106 V4 #586 #587 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-19 Center scan 1 and center scan 2 mode 28MHz drive * ICX274 Horizontal Direction Timing Chart (B: frame shift) MODE Applicable CCD image sensor 2070 0 200 300 400 1000 500 100 15H 900 HR MCKO 406 52 H1A/B 4 214 268 358 412 502 862 952 1006 H2A/B 70 124 V1 160 394 844 250 304 448 898 988 1042 106 V2A/B/C 196 286 340 430 484 880 934 1024 52 142 - 53 - 178 232 322 376 466 #2 #3 V3A/B/C 916 970 1060 88 V4 #193 #194 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-19.1 Horizontal Direction Timing Chart (B: frame shift) Center scan 1 and center scan 2 mode 36MHz drive 2070 0 200 300 400 500 500 100 6H 400 HR MCKO 406 52 H1A/B 4 214 268 358 412 502 340 430 484 H2A/B 70 124 V1 160 394 322 250 304 448 376 466 520 106 V2A/B/C 196 286 340 430 484 358 412 502 52 142 V3A/B/C 178 232 322 376 466 394 448 538 - 54 - #2 #3 88 V4 #60 #61 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-20 Center scan 3 mode 28MHz drive * ICX274 Horizontal Direction Timing Chart (B: frame shift) MODE Applicable CCD image sensor 1920 0 200 300 400 1000 500 100 32H 900 HR MCKO 256 52 H1A/B 4 214 268 358 412 502 844 934 988 H2A/B 124 V1 160 394 826 250 304 448 880 970 1024 106 V2A/B/C 196 286 340 430 484 862 916 1006 142 - 55 - 178 232 322 376 466 #2 #3 V3A/B/C 898 952 1042 88 V4 #406 #407 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-20.1 Horizontal Direction Timing Chart (B: frame shift) Center scan 3 mode 36MHz drive 1920 0 200 300 400 1000 500 100 27H 900 HR MCKO 256 52 H1A/B 4 214 268 358 412 502 652 742 796 H2A/B 124 V1 160 394 634 250 304 448 688 778 832 106 V2A/B/C 196 286 340 430 484 670 724 814 142 - 56 - 178 232 322 376 466 #2 #3 V3A/B/C 706 760 850 88 V4 #338 #339 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-21 AF1 mode, 28MHz drive * ICX274 Horizontal Direction Timing Chart (B: frame shift) MODE Applicable CCD image sensor 2352 0 200 300 400 1900 500 100 19H 1800 HR MCKO 52 H1A/B 4 214 268 358 412 502 1756 1846 1900 H2A/B 70 124 V1 160 394 1738 250 304 448 1792 1882 1936 106 V2A/B/C 142 196 286 340 430 484 1774 1828 1918 52 - 57 - 178 232 322 376 466 #2 #3 V3A/B/C 1810 1864 1954 88 V4 #290 #291 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-21.1 Horizontal Direction Timing Chart (B: frame shift) AF1 mode, 36MHz drive 2352 0 200 300 400 1700 500 100 11H 1600 HR MCKO 52 H1A/B 4 214 268 358 412 502 1564 1654 1708 H2A/B 70 124 V1 160 394 1546 250 304 448 1600 1690 1744 106 V2A/B/C 142 196 286 340 430 484 1582 1636 1726 52 - 58 - 178 232 322 376 466 #2 #3 V3A/B/C 1618 1672 1762 88 V4 #158 #159 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-22 AF2 mode, 28MHz drive * ICX274 Horizontal Direction Timing Chart (B: frame shift) MODE Applicable CCD image sensor 2352 0 200 300 400 600 500 100 33H 500 HR MCKO 52 H1A/B 4 214 268 358 412 502 412 502 556 H2A/B 70 124 V1 160 394 394 250 304 448 448 538 592 106 V2A/B/C 142 196 286 340 430 484 430 484 574 52 - 59 - 178 232 322 376 466 #2 #3 V3A/B/C 466 520 610 88 V4 #542 #543 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R MODE Applicable CCD image sensor * ICX274 Chart-22.1 Horizontal Direction Timing Chart (B: frame shift) AF2 mode, 36MHz drive 2352 0 200 300 400 700 800 500 100 31H 600 HR MCKO 52 H1A/B 4 214 268 358 412 502 604 694 748 H2A/B 70 124 V1 160 394 586 250 304 448 640 730 784 106 V2A/B/C 142 196 286 340 430 484 622 676 766 52 V3A/B/C 178 232 322 376 466 658 712 802 - 60 - #2 #3 88 V4 #478 #479 #1 The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. The HR fall period should be between approximately 5.0 to 28.7s (when the drive frequency is 28MHz). This chart shows a period of 185ck (6.5s). The internal SSG operates at this timing. CXD3609R Chart-23 MODE Progressive scan mode - high-speed sweep not present - 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) Applicable CCD image sensor 1920 1 HR 88 70 124 214 V1 1100 70 124 1250 106 160 V2A/B/C 1920 1 52 142 196 106 V3A/B/C 52 142 88 178 - 61 - V4 282 342 282 342 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. CXD3609R Chart-24 Monitoring mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 2352 1 HR 502 556 1358 1448 1502 70 124 646 214 268 358 412 502 556 70 124 214 268 358 412 V1 1100 538 592 1340 1394 1484 1538 106 160 1250 250 304 394 448 538 592 V2A 106 160 250 304 394 448 V2B/C 430 484 574 628 1376 1430 1520 52 142 196 286 336 426 480 570 52 142 196 286 340 V3A V3B/C 466 520 610 1322 1412 1466 1556 88 178 232 322 376 466 520 610 88 178 232 322 376 V4 619 679 282 342 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. 2352 1 - 62 - CXD3609R Chart-25 Draft mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 1920 1 HR 840 930 984 1074 1332 1422 1476 70 124 214 268 358 70 124 214 268 358 V1 600 750 822 876 966 1020 1314 1368 1458 1512 106 160 250 304 V2C 106 160 250 304 V2A/B 858 912 1002 1056 1350 1404 1494 52 142 196 286 340 52 142 196 286 340 V3C V3A/B 804 894 948 1038 1296 1386 1440 1530 88 178 232 322 88 178 232 322 V4 334 394 334 394 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. 1920 1 - 63 - CXD3609R Chart-26 2-line addition mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 1920 1 HR 840 930 984 1074 1332 1422 1476 70 124 214 268 358 70 124 214 268 358 V1 600 750 822 876 1128 1278 966 1020 1314 1368 1458 1512 106 160 250 304 V2C 106 160 250 304 V2A/B V3C 52 858 912 1002 1056 1350 1404 1494 142 196 286 340 1920 1 52 142 196 286 340 - 64 - 804 894 948 1038 V3A/B 1296 1386 1440 1530 88 178 232 322 88 178 232 322 V4 334 394 334 394 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. CXD3609R Chart-27 Center scan 1 mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 2070 1 HR 840 930 984 1074 1128 70 124 214 268 358 70 124 214 268 358 V1 600 750 822 876 966 1020 1110 1164 106 160 250 304 V2C 106 160 250 304 V2A/B 858 912 1002 1056 1146 52 142 196 286 340 52 142 196 286 340 V3C V3A/B 804 894 948 1038 1092 1182 88 178 232 322 88 178 232 322 V4 334 390 334 390 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. 2070 1 - 65 - CXD3609R Chart-28 Center scan 2 mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 2070 1 HR 840 930 984 1074 1332 70 124 214 268 358 70 124 214 268 358 V1 600 750 822 876 966 1020 1314 1368 1128 1278 106 160 250 304 V2C 106 160 250 304 V2A/B 858 912 1002 1056 1350 52 142 196 286 340 52 142 196 286 340 V3C V3A/B 804 894 948 1038 1296 1386 88 178 232 322 88 178 232 322 V4 334 390 334 390 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. 2070 1 - 66 - CXD3609R Chart-29 Center scan 3 mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 1920 1 HR 124 214 268 358 412 70 124 214 V1 1100 106 160 1250 250 304 394 448 106 160 V2A/B/C 1920 1 52 142 196 142 196 268 340 430 484 V3A/B/C 88 178 232 322 376 466 88 178 - 67 - V4 282 342 282 342 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. CXD3609R Chart-30 AF1 and AF2 mode 28MHz (36MHz) drive * ICX274 Horizontal Direction Timing Chart (A: readout block) MODE Applicable CCD image sensor 2352 1 HR 502 556 1358 1448 1502 1592 1646 70 124 646 214 268 358 412 502 556 70 124 214 268 358 412 V1 1100 538 592 1340 1394 1484 1538 1628 1682 106 160 1250 250 304 394 448 538 592 V2A 106 160 250 304 394 448 V2B/C 430 484 574 628 1376 1430 1520 1574 1664 52 142 196 286 336 426 480 570 52 142 196 286 340 V3A V3B/C 466 520 610 1322 1412 1466 1556 1610 1700 88 178 232 322 376 466 520 610 88 178 232 322 376 V4 619 679 619 679 SUB The HR of this chart indicates the actual CXD3609R load timing. The numbers at the output pulse transition points indicate the count at the MCKO rise from the fall of HR. 2352 1 - 68 - CXD3609R Chart-31 * ICX274 High-Speed Phase Timing Chart MODE Applicable CCD image sensor HR HR' CKI CKO ADCLK 52 256/406/688 1 MCKO H1A/B - 69 - H2A/B RG XSHP XSHD HR' of this chart indicates the actual CXD3606R load timing. The phase relationship of each pulse shows the logical position relationship. For the actual output waveform, a delay is added to each pulse. The logic phase of ADCLK can be specified by the serial interface data. CXD3609R Chart-32 * ICX274 Vertical Direction Sequence Chart 28MHz (36MHz) drive Trigger in mode Trigger mode Trigger out mode MODE Progressive scan mode - high-speed sweep not present - Applicable CCD image sensor TRIG VD fall is not accepted until 2H after SG generation VR (1) (71) 1251 1493 (1252) 1 HR Number of SUB lines (ex. 75 lines, 72 to 4096 lines) SUB V1 SG generation position setting (ex. 85H, 72H, to 4096H) V2A/B/C High-speed sweep existent/ not existent setting V3A/B/C PBLK OBCLP CLPDM ID/EXP WEN TRIG-IN TRIG TRIG-OUT All pixels 1235 1236 - 70 - V4 1 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 CCD OUT 1493 (1252) 1 CXD3609R The number of SUB pulses is determined by the serial interface data. This chart shows the case where SUB pulses are output in all horizontal periods. ID/EXP of this chart shows ID. ID is low for lines where CCD OUT contains the R component, and high for lines where CCD OUT contains the B component. During 28MHz drive, the VR period is 1493H, and at 1493H one horizontal period is 1860ck. During 36MHz drive, the VR period is 1252H, and at 1252H one horizontal period is 480ck. The VD fall is not accepted until 2H after SG generation. For example, when SG is generated at 23H, VR is not accepted from 1H to 24H, but is accepted from 25H onward. Even when SG generation position > number of SUB pulses in the serial data, SG generation position = number of SUB pulses is used. CXD3609R Application Circuit Block diagram CCD ICX274 CCD OUT CDS/ADC Block Digital OUT CLPDM OBCLP H2A H2B 13 15 H1A H1B RG V1 V4 V2A V2B V2C V3A V3B V3C SUB 10 18 19 20 21 22 23 4 ID/EXP WEN 12 8 38 39 40 42 43 44 46 47 48 26 27 28 31 32 33 V-Dr TG CXD3609R SSG ADCLK XSHD XSHP PBLK 5 25 30 CKO MCKO Signal Processor Block 34 35 VR HR 2 3 6 RST SNCSL SSGSL SSI SCK TEST TRIG CKI Controller Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. Notes for Power-on Of the three -7.5V, +15.0V, +3.3V power supplies, be sure to start up the -7.5V and +15.0V power supplies in the following order to prevent the SUB pin of the CCD image sensor from going to negative potential. +15.0V t1 20% 0V 20% t2 t2 t1 SEN -7.5V - 71 - CXD3609R Package Outline Unit: mm 48PIN LQFP (PLASTIC) 9.0 0.2 36 37 7.0 0.1 25 24 S (8.0) A 48 1 0.5 + 0.08 0.18 - 0.03 + 0.2 1.5 - 0.1 12 13 B (0.22) + 0.05 0.127 - 0.02 0.13 M 0.1 0.1 0.1 0.5 0.2 S 0.18 0.03 0 to 10 0.5 0.2 DETAIL B:PALLADIUM DETAIL A NOTE: Dimension " " does not include mold protrusion. PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE LQFP-48P-L01 LQFP048-P-0707 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN PALLADIUM PLATING COPPER ALLOY 0.2g 0.127 0.04 - 72 - Sony Corporation |
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