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| d a t a sh eet product speci?cation supersedes data of 1995 apr 27 file under integrated circuits, ic17 1997 mar 04 integrated circuits PCF5001 pocsag paging decoder
1997 mar 04 2 philips semiconductors product speci?cation pocsag paging decoder PCF5001 contents 1 features 2 applications 3 general description 4 ordering information 5 block diagrams 6 pinning 7 functional description 7.1 the PCF5001 supports two basic modes of operation 7.2 the pocsag paging code 7.3 modes and states of the decoder 7.4 decoding of the pocsag data stream 7.5 generation of output signals 7.6 alerter 7.7 silent call storage and repeat mode 7.8 duplicate call suppression 7.9 led indicator 7.10 vibrator output 7.11 start-up alert 7.12 serial communication interface 7.13 message data transfer 7.14 call data output on led 7.15 serial communication call data format 7.16 data conversion 7.17 memory organization 7.18 description of the special programmed function (spf) bits 7.19 eeprom write operation 7.20 eeprom read operation 7.21 read-back operation via microcontroller interface 7.22 voltage converter 7.23 test modes of the decoder 7.23.1 board test mode 7.23.2 pager test mode (type approval mode) 8 limiting values 9 dc characteristics 10 dc characteristics (with voltage converter) 11 ac characteristics 12 timing characteristics 13 programming characteristics 14 application information 15 package outlines 16 soldering 16.1 introduction 16.2 reflow soldering 16.3 wave soldering 16.3.1 lqfp 16.3.2 so 16.3.3 method (lqfp and so) 16.4 repairing soldered joints 17 definitions 18 life support applications 1997 mar 04 3 philips semiconductors product speci?cation pocsag paging decoder PCF5001 1 features wide operating supply voltage range (1.5 to 6.0 v) extended temperature range: - 40 to +85 c (between - 40 to - 10 c, minimum supply voltage restricted to 1.8 v) very low supply current (60 m a typ. with 76.8 khz crystal) ccir radio paging code no 1 (pocsag) compatible programmable call termination conditions 512 and 1200 bits/s data rates (2400 bits/s with some restrictions), see section 7.4 improved access a synchronization algorithm supports 4 user addresses (rics) in two independent frames eight different alert cadences directly drives magnetic or piezo ceramic beeper high level alert requires only a single external transistor optional vibrator type alerting silent call storage, up to eight different calls repeat alarm facility programmable duplicate call suppression interfaces directly to uaa2050t, uaa2080 and uaa2082 digital paging receivers programmable receiver power control for battery economy on-chip non-volatile eeprom storage on-chip voltage converter with improved drive capability serial microcontroller interface for display pager applications optional visual indication of received call data using a modified rs232 format level shifted microcontroller interface signals alert on low battery optional out-of-range indication. 2 applications alert-only pagers, display pagers telepoint telemetry/data receivers. 3 general description the PCF5001 is a fully integrated low-power decoder and pager controller. it decodes the ccir radio paging code no.1 (pocsag-code) at 512 and 1200 bits/s data rates. the PCF5001 is fabricated in sacmos technology to ensure low power consumption at low supply voltages. 4 ordering information note 1. when using ir reflow soldering it is recommended that the drypack instructions in the quality reference handbook (order number 9397 750 00192) are followed. type number package name description version PCF5001t so28 plastic small outline package; 28 leads; body width 7.5 mm sot136-1 PCF5001h lqfp32 (1) plastic low pro?le quad ?at package; 32 leads; body 7 7 1.4 mm sot358-1 1997 mar 04 4 philips semiconductors product speci?cation pocsag paging decoder PCF5001 5 block diagrams fig.1 block diagram (so28; sot136-1). handbook, full pagewidth pd ps do ds PCF5001t receiver enable control oscillator voltage converter power-on reset test control status control clock recovery clock generation data output control digital input filter sync control timing control decoder and error correction control bl bs sr sk on ie eeprom memory eeprom control alert generation control battery low control serial data processor 26 27 ah al or om ol ai di ts tt fl cp cn re x1 x2 12 15 25 16 13 23 v ref v ss v dd 5 14 9 10 7 8 17 4 3 2 1 28 11 18 21202219 24 6 mcd454 1997 mar 04 5 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.2 block diagram (lqfp32; sot358-1). handbook, full pagewidth pd ps do ds PCF5001h receiver enable control oscillator voltage converter power-on reset test control status control clock recovery clock generation data output control digital input filter sync control timing control decoder and error correction control bl bs sr sk on ie eeprom memory eeprom control alert generation control battery low control serial data processor 10 11 ah al or om ol ai di ts tt fl cp cn re x1 x2 26 29 9 30 27 6 v ref v dd 17 28 23 24 19 22 v ss 31 16 15 14 13 12 25 32 4 3 5 1 8 18 mlb045 n.c. 2 n.c. 7 n.c. 20 n.c. 21 1997 mar 04 6 philips semiconductors product speci?cation pocsag paging decoder PCF5001 6 pinning symbol pin description PCF5001t (sot136-1) PCF5001h (sot358-1) v ref 1 13 microcontroller interface reference voltage input/output. the low level of pins fl, ds, do, or, bl, ai, on, sk, sr and ie is related to the voltage on v ref . may be driven from an external negative voltage source or must be connected to v ss , if pins cn and cp are left open-circuit. when the on-chip voltage converter is used, this pin provides a doubled negative output voltage. cn 2 14 voltage converter external shunt capacitance, negative side. connect the negative side of the shunt capacitor to this pin, if the on-chip voltage converter function is used. cp 3 15 voltage converter external shunt capacitor, positive side. connect the positive side of the shunt capacitor to this pin, if the on-chip voltage converter function is used. v dd 4 16 main positive power supply. this pin is common to all supply voltages and is referred to as 0 v (common). di 5 17 serial data input (pocsag code). the serial data signal train applied to this pin is processed by the decoder. pulled low by an on-chip pull-down when the receiver is disabled (re = low). bs 6 18 battery-low indication input. the decoder samples this input during synchronization scan, when it is in on or silent status and the receiver is enabled (re = high). a battery-low condition is assumed, if the decoder detects four consecutive samples high. an audible battery-low indication is made by the decoder, when operating in on status. normally low by the operation of an on-chip pull-down. pd 7 19 eeprom programming data input and output. normally high by the operation of an on-chip pull-up. during programming of the on-chip eeprom, pd is a bidirectional data and control signal. ps 8 22 eeprom programming strobe input. normally low by the operation of an on-chip pull-down. during programming of the on-chip eeprom, ps is a unidirectional control input. x1 9 23 crystal oscillator input. connect a 32768 hz or 76800 hz crystal and a biasing resistor between this pin and x2. in addition, provide a load capacitance to v dd , which may also be used for frequency tuning. x2 10 24 crystal oscillator output. return connection for the external crystal and resistor at x1. ts 11 25 scan test mode enable input. always low by operation of an on-chip pull-down. ah 12 26 alert high-level output. this output can directly drive an external bipolar transistor to control high-level alerting in conjunction with al, by means of an alerter or beeper. ol 13 27 led indication output. this output can directly drive an external bipolar transistor to control the visual alert function by means of an led. it may also be used for visual indication of received call data during call reception. 1997 mar 04 7 philips semiconductors product speci?cation pocsag paging decoder PCF5001 re 14 28 receiver enable output. may be used to control the paging receiver power control input, to minimize power consumption. the decoder provides a high-level at this pin, when receiver operation is requested. each time the decoder does not require any input data at di the receiver enable output is low. al 15 29 alert low-level output. open drain alert output in anti-phase to ah, to provide low-level alerting. high-level alerting is generated in conjunction with ah. om 16 30 vibrator output. this output can directly drive an external bipolar transistor to control a vibrator type alerter. v ss 17 31 main negative supply voltage. tt 18 32 test mode enable input. always low by operation of an on-chip pull-down. ie 19 1 interface enable input. while the interface enable input is active high, operation of the on, sk, sr, ai, bl and or inputs and outputs is possible. when ie is low the inputs do not respond to applied signals and the outputs are made high-impedance. in alert-only pager mode the interface enable input does not have any effect on the operation of inputs on, sk and sr, but ie must be referenced to low or high. sk 20 3 silent state control input. the silent control input selects the decoder on status (low-level) or silent status (high-level), if the on input is active high. an on-chip pull-up is provided, if the decoder has been programmed for alert-only pager mode, whereby the pull-up is disabled for display pager mode. in display pager mode status change is possible if the interface enable input (ie) is high and the status is latched on the falling edge of ie. sr 21 4 status request and reset input. a high-going pulse on this input causes (a) status indication cadence to be generated, if the decoder is not alerting or (b) resetting of a call alert, repeated call alert or battery-low alert, if active or (c) triggers the call store re-alert facility, if repeat mode is active. in display pager mode operation of sr is possible only if the interface control input is active. normally low by the operation of an on-chip pull-down. on 22 5 on/off control input. the on/off control input selects the decoder on status (high-level) or off status (low-level). an on-chip pull-up resistor is provided, if the decoder has been programmed for alert-only pager mode, but the pull-up resistor is disabled for display pager mode. in display pager mode, status change is possible if the interface enable input (ie) is high and the status is latched on the falling edge of ie. ai 23 6 alarm input. a high-level on this input causes generation of a continuous high-level alert via ah and al outputs, if the decoder operates in on status or off status. in addition, the led output is active independent from the decoder status, but in accordance with ai. pulsing the input may be used to modulate the alert and led indication. normally low in alert-only pager mode by operation of an on-chip pull-down. symbol pin description PCF5001t (sot136-1) PCF5001h (sot358-1) 1997 mar 04 8 philips semiconductors product speci?cation pocsag paging decoder PCF5001 bl 24 8 battery-low indication output. if the decoder encounters a battery-low condition a battery-low output latch is set high. the battery-low output latch may be tested for a battery-low condition, whenever the interface enable input (ie) is active (high), otherwise the battery-low output is made high-impedance. the battery-low output latch is reset only, by switching the decoder to off status. or 25 9 out-of-range indication output. whenever the decoder detects an out-of-range condition an out-of-range output latch is set high after expiry of the programmed out-of-range hold-off time selected by means of special programming (spf06 and spf07) of the eeprom. the out-of-range latch may be tested for an out-of-range condition, whenever the interface enable input (ie) is active (high), otherwise the out-of-range output is made high-impedance. the out-of- range output is reset by detection of a valid data transmission or by switching the decoder to off status. do 26 10 serial interface data output. during normal decoder operation, accepted calls and possibly subsequent message data are serially output via this pin in conjunction with the data strobe output (ds). this pin is also used to output the eeprom contents upon special command, if the decoder is programmed for display pager. ds 27 11 serial interface data strobe output. provides a clock signal for the received call data and eeprom data appearing at the data output (do). each time this output is low the data at do is valid. additional start and stop conditions allow easy identi?cation of data sequence start and end. fl 28 12 frequency reference output. when programmed for display pager mode, this output provides a clock reference with 16384 or 32768 hz per second, selected by spf32. see chapter 7. n.c. - 2, 7, 20, 21 not connected. symbol pin description PCF5001t (sot136-1) PCF5001h (sot358-1) 1997 mar 04 9 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.3 pin configuration PCF5001t (sot136-1). handbook, halfpage 28 27 26 25 24 23 22 21 20 19 18 17 16 15 1 2 3 4 5 6 7 8 9 10 11 12 13 14 mcd455 - 1 ds do or bl ai on sr sk ie tt om al fl PCF5001t cn cp di bs pd ps x1 x2 ts ah ol re v ref v dd v ss fig.4 pin configuration PCF5001h (sot358-1). handbook, halfpage 1 2 3 4 5 6 7 8 24 23 22 21 20 19 18 17 9 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 index corner ie n.c. sk sr on ai n.c. bl or do ds fl v ref cn cp v dd di bs pd n.c. n.c. ps x1 x2 ts ah ol re al om v ss tt PCF5001h mlb048 7 functional description the PCF5001 is a very low power decoder and pager controller specifically designed for use in new generation radio pagers. the architecture of the PCF5001 allows for flexible application in a wide variety of radio pager designs. the PCF5001 is fully compatible with ccir radio paging code number 1 (also known as the pocsag code) operating at the originally specified 512 bits/s data rate, and also at the newly specified 1200 bits/s data rate (2400 bits/s operation is also possible). the PCF5001 also offers features which extend the basic flexibility and efficiency of this code standard. 7.1 the PCF5001 supports two basic modes of operation in alert-only pager mode only a minimum number of external components are required to build a complete tone-only pager. selection of operating states on, off or silent is achieved using a slider switch interface. in display pager mode the state input logic is switched to a bus interface structure. received calls and messages are transferred to an external microcontroller via the serial microcontroller interface. a built-in voltage converter with increased drive capabilities can supply doubled supply voltage output, and appropriate logic level shifting on microcontroller interface signals is provided. upon reception of valid calls one of eight different call cadences is generated; upon status interrogation status indication tones make the current status of the decoder available to the user. on-chip non-volatile 114-bit eeprom storage is provided to hold up to four user addresses, two frame numbers and the programmed decoder configuration. synchronization to the input data stream is achieved using the improved access a algorithm, which allows for data synchronization and re-synchronization without preamble detection while minimizing battery power consumption by receiver power control. one of four error correction algorithms is applied to the received data to optimize the call success rate. 1997 mar 04 10 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.2 the pocsag paging code a transmission using the ccir radio paging code no. 1 (pocsag code) is constructed in accordance with the following rules (see fig.5). the transmission is started by sending a preamble , consisting of at least 576 continuously alternating bits (10101010...). the preamble is followed by an arbitrary number of batch blocks. only complete batches are transmitted. each batch comprises 17 codewords of 32 bits each. the first codeword is a synchronization codeword with a fixed pattern. the sync word is followed by 8 frames (0 to 7) of 2 codewords each, containing message information. a codeword in a frame can either be an address, message or idle codeword. idle codewords also have a fixed pattern and are used to fill empty frames or to separate messages. address codewords are identified by an msb at logic 0 and are coded as shown in fig.5. a user address or ric consists of 21 bits. only the upper 18 bits are encoded in the address codeword (bits 2 to 19). the lower 3 bits designate the frame number (0 to 7) in which the address is transmitted. four different call types (numeric, alphanumeric and two alert only types) can be distinguished. the call type is determined by two function bits in the address codeword (bits 20 and 21). alert-only calls consist only of a single address codeword. numeric and alphanumeric calls have message codewords following the address. a message causes the frame structure to be temporarily suspended. message codewords are sent until the message is completed, with only the sync words being transmitted in their expected positions. message codewords are identified by an msb at logic 1 and are coded as shown in fig.5. the message information is stored in a 20-bit field (bits 2 to 21). the standard data format is determined by the call type: 4 bits per digit for numeric messages and 7 bits per (ascii) character for alphanumeric messages. each codeword is protected against transmission errors by 10 crc check bits (bits 22 to 31) and an even-parity bit (bit 32). this permits correction of a maximum of 2 random errors or up to 3 errors in a burst of 4 bits (a 4-bit burst error) per codeword. fig.5 pocsag code structure. handbook, full pagewidth preamble batch 1 batch 2 batch 3 last batch sync | cw cw | cw cw | . . . . . | cw cw frame 0 frame 1 frame 7 10101 . . . 10101010 address code-word message code-word 0 18-bit address 2 function bits 10 crc bits p 1 20-bit message 10 crc bits p mcd456 1997 mar 04 11 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.3 modes and states of the decoder the PCF5001 supports two basic operating modes: alert-only pager mode display pager mode. two further modes, the programming mode and the test mode, are implemented to program and verify the eeprom contents and to support pager production and approval tests, respectively. in alert-only pager mode no external microcontroller is required, see fig.22. a three position slider switch interface is provided to select the internal state of the decoder. the decoder performs regular scanning of the switch inputs to detect a status change. a push-button interface is provided on the sr input, which is used as input for user acknowledgment actions and status interrogation. upon reception of valid calls, tone alert cadences are generated. a call storage is provided to store calls received while operating in silent status and to recall cadences upon repeat mode operation. the voltage doubler and the frequency reference output are disabled in this mode. in display pager mode the PCF5001 operates as decoder and pager controller in combination with an external microcontroller (see fig.23). the internal states of the decoder are determined by appropriate logic levels on the status inputs. a bus type interface structure is used to interface the decoder to the microcontroller. the decoder's on-chip voltage converter provides doubled supply voltage output to provide a higher supply voltage to the microcontroller and any additional hardware. the logic levels of the interface's input and output signals are level shifted to allow for direct coupling between microcontroller and the decoder. upon detection of a valid call, address and message information are transferred to the external microcontroller using the serial microcontroller interface. in addition, appropriate call alert cadences are generated. if the decoder is in one of the two operating modes, it is always in one of the following three internal states: off status. this is the power saving, inactive status of the PCF5001. the paging receiver is disabled, no decoding of input data takes place. however, the crystal oscillator is kept running to ensure that scanning of the status inputs/status switch is maintained to allow changing into one of the following two active states. on status. this is the normal active status of the decoder. incoming calls are compared with the user addresses stored in the internal eeprom. upon detection of valid calls, alert cadences and led indication are generated and data is shifted out at the serial microcontroller interface. silent status. the silent status is the same as the on status with the exception that valid calls no longer cause generation of call alert cadences. instead, if programmed as alert-only pager, the decoder stores up to eight different calls and generates appropriate alert cadences after the decoder has been put back into the on status. however, special silent override calls will cause generation of alert cadences, if enabled. the decoder operating status is selected as indicated in table 1. when programmed for alert-only pager a switch debounce period is applied to the status inputs. for status change and status interrogation in display pager mode, see figs 6 and 7. table 1 truth table for decoder operating status note 1. the eeprom transfer mode applies to display pager mode only. on input sk input operating status 0 0 off 0 1 off (eeprom transfer mode; note 1) 10on 1 1 silent 1997 mar 04 12 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.6 status change in display pager mode. internal status ie on sk tt t stp std std t ieh t sth mcd457 - 1 fig.7 status interrogation in display pager mode. mcd458 ie sr tt t t t stp sth spd ieh sth 7.4 decoding of the pocsag data stream the pocsag coded input data stream is first noise filtered by a digital filter. from the filtered data a sampling clock synchronous to the data rate is derived. the PCF5001 supports 512 bits/s and 1200 bits/s data rates. this results in a 512 hz or 1200 hz sampling clock frequency, respectively. synchronization on the pocsag code structure is performed using the improved philips access a algorithm, which employs a state machine with six internal states. a data rate of 2400 bits/s is possible if an external clock generator of 153.6 khz is connected to x1. the minimum supply voltage is then - 1.8 v. the receiver enable output is activated a period equal to t rxon before the input data is actually needed. the decoder has first to achieve bit and word synchronization before it can receive calls. the algorithm searches first for the preamble and then for synchronization codeword patterns. 1997 mar 04 13 philips semiconductors product speci?cation pocsag paging decoder PCF5001 this is carried out for the duration of 3 batches in power-on mode or 1 batch (=preamble duration) in preamble receive mode. error correction algorithms are applied to the data before it is compared with preamble and synchronization codeword patterns. the synchronization process is terminated and thus data receive mode is entered as soon as synchronization codewords are seen at the beginning of each batch. the decoder handles loss of synchronization in three steps: 1. if the decoder fails to detect the synchronization pattern at the beginning of the current batch it continues data reception as normal. this data fail mode is signalled in the message output when an address codeword was received, as shown in table 4. 2. if also at the beginning of the next batch no synchronization codeword can be detected, the algorithm assumes a small bit shift in the fade recovery mode and performs more synchronization codeword checks around the expected position for the following 15 batches. call reception is suspended. 3. if it fails to re-synchronize in the fade recovery mode, the carrier off mode is selected, in which the decoder attempts to regain synchronization by bit-wise shifting its synchronization scan window. using this technique re-synchronization is obtained within a continuous data stream of at least 18 batches without preamble detection. in data receive mode, the input data stream is sampled at the synchronization codeword position and the programmed frame positions. the received codewords are error corrected and then, if address codewords, compared with the stored user addresses related to that frame. on detection of a valid call, the decoder performs the following three operations: 1. set a store for call alert cadence generation according to the combination of the function bits in the accepted address codeword. the call alert cadence will not be generated before the call has been terminated. 2. keep the receiver enable output (re) active and receive subsequent message codewords, until any of the call termination criteria are fulfilled. 3. trigger the serial message transfer by sending a start condition and transfer deformatted message codewords as attached to the address codeword via the serial microcontroller interface to an external microcontroller, followed by a stop condition. normally call termination is assumed, when a valid idle or address codeword is received. on reception of uncorrectable codewords, call termination takes place in accordance with conditions shown in table 2. table 2 call termination on error note 1. x = dont care. spf12 spf13 call termination event 0x (1) any two consecutive codewords or the codeword directly following the address codeword uncorrectable. 1 0 any single codeword uncorrectable. 1 1 any two consecutive codewords uncorrectable. 1997 mar 04 14 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.5 generation of output signals the PCF5001 provides output indications for call alert, repeat mode alert, out of range alert, battery-low alert, status indication alert and start-up alert. some of the alert functions may be freely configured by programming of spf bits within the eeprom. table 3 shows the outputs which are used for special output indications, if the decoder operates in on status. remark: reception of special silent override calls causes the decoder to generate call alert indication via al and ah even if it operates in silent status. table 3 output signals note 1. entries in parenthesis are not valid, if the decoder operates in silent status. alert function output active (1) al ah ol om or bl start-up (yes) - yes yes -- status indication yes ----- call reception (yes) (yes) yes spf11 -- repeat mode (spf16) (spf16) spf16 --- out-of-range -- spf15 - yes - battery-low (yes) (yes) --- yes alarm input (yes) (yes) yes --- 7.6 alerter the PCF5001 provides the al and ah outputs for acoustical low-level and high-level signalling. low-level alerting is provided by the al output only. for high-level alerting both, al and ah are active in anti-phase. the square-wave output signals produce tone alert cadences by means of a magnetic or piezo ceramic beeper. the alert frequency, 2048 hz or 2731 hz square-wave, is selected by programming of spf31. when valid calls are received while operating in on status, the PCF5001 generates call alert cadences. the first four seconds are generated at low-level, a further twelve seconds are generated at high-level. alert tone generation and led indication automatically terminate after sixteen seconds unless terminated by pulsing the status request and reset input (sr). call alert generation is inhibited until completion of message codeword reception and the termination word is sent by the decoder. call alert generation commences after an alert delay period, t ald , at the earliest, see fig.8. call alert deletion is possible during the alert delay period. the call alert cadence is modulated according to the two function bits (fc) in the received address codeword, see fig.9. valid calls received on ric b or ric d cause the alerter frequency to be warbled by means of an additional 16 hz and 1024 hz signal (respective 1365 hz for spf31 = 1) as opposed to ric a and ric c where no alert frequency warble takes place. thus, eight different call cadences are distinguishable. on status interrogation by the status request and reset input (sr) the PCF5001 generates a status cadence at low-level, in accordance with the present internal decoder status (see fig.10). when detecting a battery-low condition the PCF5001 provides a battery-low indication. operating in on status causes generation of a battery-low alert at high-level for sixteen seconds or until terminated by pulsing sr. operating in silent status or repeat mode the battery-low alert is stored and inhibited until switching to on status. 1997 mar 04 15 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.8 call alert delay. do ds eot stp call1 call2 al ah ol t ald t ald mcd459 fig.9 call alert cadences. t alp t alc t alc t alp mcd460 t alc t alp t alp t alc t alp t alp t alc t alp cadence 1 (fc = 00) cadence 2 (fc = 01) cadence 3 (fc = 10) cadence 4 (fc = 11) 1997 mar 04 16 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.10 status indication cadences. mcd461 on off silent t ston t stof t ston t stof t ston 7.7 silent call storage and repeat mode when programmed for alert only pager the PCF5001 provides a call alert storage for storing of call alerts received during silent status or for call alerts which caused the decoder to enter repeat mode. call alert is not stored, when call indication is terminated by action of the status request and reset input (sr). allowing the call indication to time-out by expiration of a sixteen second alert operation causes the repeat mode to be entered, while operating in on status or silent status. such call alerts are stored for later repeated call alert on interrogation by the user. when repeat mode has been entered and the decoder operates in on status, the repeat call store is interrogated by pulsing the status request and reset input (sr) or on switching to on status if the decoder operates in silent status. when silent override calls are received, which entered the repeat mode, interrogation of repeat call store operates as in decoder on status. after interrogation of repeat call store and subsequent generation of all stored call alerts the call store is cleared and the repeat mode is terminated. when programmed by means of spf16, a repeat alert cadence is generated periodically, whenever repeat mode has been entered. operating in on status causes the repeat alert cadence to be generated at high-level and warbled by means of an additional 16 hz and 1024 hz signal (respective 1365 hz for spf31 = 1) as shown in fig.11. the led output indicates the same alert cadence and alert warble. in silent status only the led output is active. no call alert storage occurs when the decoder is programmed for display pager mode. 7.8 duplicate call suppression the PCF5001 provides a duplicate call suppression with time-out facility, to identify duplicate call reception. when selected by programming of spf14, the PCF5001 inhibits any duplicate call alert in alert-only pager mode. in display pager mode, duplicate call indication is achieved only via the serial microcontroller interface. a call is assumed to be duplicate if its address and function bit setting is equal to the latest received call, which initialized the call address and function bit reference. the duplicate call suppression time-out is selectable by programming of spf06 and spf07. 7.9 led indicator the PCF5001 provides for visual signalling using a led via output ol. call alert indication is provided by the led with the same cadence and warble modulation as for the alerter outputs al and ah. call alert indication occurs in on and silent status and automatically terminates after sixteen seconds time-out unless terminated by pulsing the status request and reset input (sr). when detecting an out-of-range condition and enabled by programming of spf15, the led output provides an out-of-range indication as shown in fig.12. 1997 mar 04 17 philips semiconductors product speci?cation pocsag paging decoder PCF5001 the led output can be made to provide message data by programming spf17. alert signals are inhibited during message data transfer. 7.10 vibrator output the PCF5001 provides the om output for activating a vibrator-type alerter for call alert indication. the vibrator output is enabled by programming of spf11. calls received while operating in silent status cause activation of the vibrator output for the normal call alert cadence or until terminated by operation of the status request and reset input (sr). silent override calls, calls received in decoder on status and repeated call alerts are alerted normally by the al and ah outputs. 7.11 start-up alert to indicate the establishment of operational condition whenever the decoder status has been changed from off to on or silent status, the PCF5001 provides a start-up alert indication. switching from off to on status causes generation of a start-up alert cadence at low-level and on the led output ol (see fig.13). fig.11 repeat alert cadence. mcd462 al ah ol t rcr t rpt fig.12 out-of-range indication. mcd463 tt ora ord when changing from off to silent status, the start-up alert will be indicated on the led output and the vibrator output om. 7.12 serial communication interface to transmit any call message data received to an external microcontroller for post-processing, a serial communication interface has been provided by a serial data output signal do and a data strobe signal ds as shown in fig.14. upon interrogation the PCF5001 is also able to transfer eeprom contents via the serial communication interface, see section 7.21. 7.13 message data transfer the transfer of message data via do and ds is organized in 8-bit words providing additional start and stop conditions as shown in fig.15. on reception of a valid call address the PCF5001 generates a start condition and outputs an address word as shown in fig.15a. the address word indicates call address, function bit setting and decoder flags as shown in table 4. message codewords received and concatenated to a valid call address are transferred after completion of the address word. the message bits received in the message codewords are split into blocks and are converted to obtain the message words. the message words comprise an error flag to indicate message words, which are derived from uncorrectable message codewords as shown in table 5. message data is output at a rate of 2048 bits/s with a minimum delay of 2 bits between consecutive message words. fig.13 start-up alert. mcd464 al ol om t sua 1997 mar 04 18 philips semiconductors product speci?cation pocsag paging decoder PCF5001 termination of call reception causes a termination word to be transferred, which indicates successful or unsuccessful call termination as shown in table 6. serial data transfer for a received call ends with a stop condition as shown in fig.15c. mea254 - 1 1st message word address word start condition do ds start of transfer a0 a1 a2 a3 a4 a5 a6 a7 message word n+1 message word n message word n? message transfer mn0 mn1 mn2 mn3 mn4 mn5 mn6 mn7 termination word last message word end of transfer t0 t1 t2 t3 t4 t5 t6 t7 stop condition do ds do ds fig.14 call data transfer on the serial communication interface. 1997 mar 04 19 philips semiconductors product speci?cation pocsag paging decoder PCF5001 handbook, full pagewidth do ds t dsw t doh t dos t dsd t tdo do ds t st t dos do ds mea253 - 2 t doh t sp fig.15 serial communication interface timing. a. b. a. start condition. b. data bit. c. stop condition. c. 1997 mar 04 20 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.14 call data output on led when enabled by programming of spf17 = 1, message data will appear on the led output ol. the data format and timing are equal to the signal on do, except that the start/stop conditions are replaced with start/stop bits (respectively 1 and 0). the data format is shown in fig.16. no alert signals will appear on ol during message data transfer. consecutive message words have a minimum separation of 1 start bit and 1 stop bit. fig.16 call data transfer on the led output. mea255 - 1 1st message word address word ol start of transfer a0 a1 a2 a3 a4 a5 a6 a7 message word n message word n? message transfer mn0 mn1 mn2 mn3 mn4 mn5 mn6 mn7 termination word last message word end of transfer t0 t1 t2 t3 t4 t5 t6 t7 start bit stop bit start bit stop bit start bit stop bit start bit stop bit start bit stop bit message word n 1 ol ol 1997 mar 04 21 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.15 serial communication call data format table 4 address word format table 5 message word format note 1. bit 7 = 1, if message codeword could not be corrected. table 6 termination word format note 1. bit 7 = 1, if call termination on error. function code call address bit 4 sync status duplex call bit 7 bit 0 (lsb) bit 1 (msb) bit 2 bit 3 ric bit 5 bit 6 bit 21 of address codeword bit 20 of address codeword 0 0 a 1 0 = data receive; 1 = data fail 1 = duplex call time-out active 0 01b 10c 11d bit 0 bit 1 bit 2 bit 3 bit 4 bit 5 bit 6 bit 7 (1) lsb message bits msb error ?ag bit 0 bit 1 bit 2 bit 3 bit 4 bit 5 bit 6 bit 7 (1) 0010000 error ?ag 7.16 data conversion the PCF5001 automatically converts message codewords received in numeric or alphanumeric format into ascii format. depending on spf13 and the function bit setting in the received address codeword a conversion takes place as shown in table 7. when a conversion from alphanumeric format to ascii takes place, the received message codewords are split into message blocks, seven bits in length. after adding the error flag they are transferred as message words. when a conversion from numeric format to ascii takes place, the received message codewords are split into blocks, four bits in length. each four bit block is converted to a seven bit block as shown in table 8. after adding the error flag they are transferred as message words. table 7 message data conversion note 1. x = dont care. spf13 function bits message format bit 20 (msb) bit 21 (lsb) 0x (1) x (1) numeric 1 0 0 numeric 1x (1) 1 alphanumeric 11x (1) alphanumeric 1997 mar 04 22 philips semiconductors product speci?cation pocsag paging decoder PCF5001 table 8 numeric format to ascii conversion 4-bit block character 7-bit block lsb msb lsb msb 0000 0 0000110 1000 1 1000110 0100 2 0100110 1100 3 1100110 0010 4 0010110 1010 5 1010110 0110 6 0110110 1110 7 1110110 0001 8 0001110 1001 9 1001110 0101 * 0101010 1101 u 1010101 0011 0000010 1011 - 1011010 0111 ] 1011101 1111 [ 1101100 7.17 memory organization the PCF5001 pocsag decoder contains non-volatile eeprom memory to store four user addresses, two frame numbers and specially programmed function bits (spf01 to spf32) for decoder application configuration. the eeprom is organized as three arrays of 38 bits each as shown in fig.17. a user address (or ric) in pocsag code comprises of 21 bits, but the three least significant bits are coded in the frame number and therefore not explicitly transmitted. in the PCF5001, addresses a/b and c/d must share the same frame number: addresses a and b reside in frame fr1 (fr10, fr11 and fr12), addresses c and d reside in frame fr2 (fr20, fr21 and fr22). figure 18 shows an example of decimal address to eeprom content conversion. each address must be explicitly enabled by resetting of the associated enable bit. 1997 mar 04 23 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.17 eeprom memory organization. eeprom array 1 b17 b16 b15 b14 b13 b12 b11 b10 b09 b08 b07 b06 b05 b04 b03 b02 b01 b00 a17 a16 a15 a14 a13 a12 a11 a10 a09 a08 a07 a06 a05 a04 a03 a02 a01 a00 bit18 bit17 bit16 bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 bit37 bit36 bit35 bit34 bit33 bit32 bit31 bit30 bit29 bit28 bit27 bit26 bit25 bit24 bit23 bit22 bit21 bit20 bit19 ena enb c17 c16 c15 c14 c13 c12 c11 c10 c09 c08 c07 c06 c05 c04 c03 c02 c01 c00 d17 d16 d15 d14 d13 d12 d11 d10 d09 d08 d07 d06 d05 d04 d03 d02 d01 d00 eeprom array 2 bit18 bit17 bit16 bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 bit37 bit36 bit35 bit34 bit33 bit32 bit31 bit30 bit29 bit28 bit27 bit26 bit25 bit24 bit23 bit22 bit21 bit20 bit19 ___ enc end spf13 spf12 spf11 spf10 spf09 spf08 spf07 spf06 spf05 spf04 spf03 spf02 spf01 fr20 fr21 fr22 fr10 fr11 fr12 spf32 spf31 spf30 spf29 spf28 spf27 spf26 spf25 spf24 spf23 spf22 spf21 spf20 spf19 spf18 spf17 spf16 spf14 eeprom array 3 bit18 bit17 bit16 bit15 bit14 bit13 bit12 bit11 bit10 bit9 bit8 bit7 bit6 bit5 bit4 bit3 bit2 bit1 bit0 bit37 bit36 bit35 bit34 bit33 bit32 bit31 bit30 bit29 bit28 bit27 bit26 bit25 bit24 bit23 bit22 bit21 bit20 bit19 spf15 mcd469 a00 represents the msb of ric a, b00 is the msb of ric c, etc. fr10 represents the msb of frame 1 (valid for rics a and b), fr20 is the msb of frame 2 (rics c and d). 1997 mar 04 24 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.18 description of the special programmed function (spf) bits the following features can be selected by appropriate programming of the special programmed function bits as shown in table 9. table 9 special programmed function (spf) bits spf bit function spf01 0 alert-only pager mode. 1 display pager mode. spf02 0 512 bits/s data rate. 1 1200 bits/s data rate, possible with 76.8 khz crystal only. spf03 0 32768 hz crystal con?guration. 1 76800 hz crystal con?guration. spf04, spf05 receiver establishment time (depending on data rate). 00 7.8 ms/512 bits/s; 53.3 ms/1200 bits/s. 01 15.6 ms/512 bits/s; 6.7 ms/1200 bits/s. 10 31.3 ms/512 bits/s; 13.3 ms/1200 bits/s. 11 62.5 ms/512 bits/s; 26.7 ms/1200 bits/s. fig.18 decimal address to memory contents conversion example. a00 is the msb of ric a, fr10 is the msb of frame 1. mcd470 000000011000010110 eeprom allocation binary equivalent (18 + 3 bit available) 000000011000010110100 address decimal value (example: ric a) ric a = 1 2 4 6 8 a00 a01 a02 a03 a04 a05 a06 a07 a08 a09 a10 a11 a12 a13 a14 a15 a16 a17 100 fr10 fr11 fr12 1997 mar 04 25 philips semiconductors product speci?cation pocsag paging decoder PCF5001 note 1. call termination on: a) first codeword immediately following address codeword uncorrectable. b) two consecutive codewords uncorrectable. spf06, spf07 duplicate call suppression time-out and out-of-range hold-off time-out. 00 30 s. 01 60 s. 10 120 s. 11 240 s. spf08 0 voltage converter disabled, if spf01 = 1 (display pager mode). 1 voltage converter enabled, if spf01 = 1 (display pager mode). spf09 0 silent override on address c disabled. 1 silent override on address c enabled. spf10 0 silent override on address d disabled. 1 silent override on address d enabled. spf11 0 vibrator output disabled. 1 vibrator output enabled. spf12 0 call termination criteria combination method (note 1). 1 call termination criteria de?ned by spf13. spf13 0 numeric data deformatting, call termination on ?rst uncorrectable codeword. 1 numeric data deformatting on function code 00 only, call termination on two uncorrectable codewords. spf14 0 duplicate call suppression disabled. 1 duplicate call suppression enabled. spf15 0 out of range indication at ol output disabled, hold-off period is zero regardless of spf06 and spf07 setting. 1 out of range indication at ol output enabled, hold-off period is according to spf06 and spf07 setting. spf16 0 repeat alert disabled. 1 repeat alert enabled. spf17 0 call data output on ol disabled. 1 call data output on ol enabled. spf18 - spare. spf19 - program always 0. spf20 to spf30 - spares. spf31 0 alerter frequency 2048 hz. 1 alerter frequency 2731 hz. spf32 0 frequency reference output 16384 hz if spf01 = 1 (display pager mode). 1 frequency reference output 32768 hz if spf01 = 1 (display pager mode). spf bit function 1997 mar 04 26 philips semiconductors product speci?cation pocsag paging decoder PCF5001 7.19 eeprom write operation the program mode is entered in off status by setting the pd input low and the ps input high at any time. the program mode is left and normal operation resumed by either removing the power supply or setting the pd input high after the 38 th data bit while continuing to clock the ps input. the three eeprom arrays can be programmed in any order. selection of array is made during the second and third pulse on the ps input. the program mode has to be left after programming of each array. after entering the program mode, keeping input pd low during the first pulse on ps selects memory write operation. after selection of the current array an erase cycle of duration t pew has to be carried out, during which the supply voltage at v ss input must be at least v pg . program data for the selected array is entered bit by bit using pd as data input and the rising edge on ps as data strobe pulse. see fig.19 for timing during an eeprom write operation. after the last bit a special write cycle of duration t pew has to be carried out again, during which the supply voltage at v ss input must be v pg . during conditions when the supply voltage is increased to v pg the maximum dc ratings at v ref must not be exceeded. when the on-chip voltage converter is enabled a voltage regulator diode or a damping resistor of sufficiently low impedance has to be connected between v ref and v ss to limit the voltage level at v ref during program operation. 7.20 eeprom read operation after entrance to the program mode, keeping input pd high during the first pulse on ps selects memory read operation. after selection of the current array the programmed data is output bit-by-bit using pd as data output. a positive edge on ps input switches to the next bit. see fig.19 for timing during an eeprom read operation. 7.21 read-back operation via microcontroller interface in display pager mode, the PCF5001 is capable of delivering the eeprom contents to an external microcontroller using the serial interface outputs do and ds. the eeprom data transfer mode is selected by applying a low to input on and a high to input sk while pulsing the sr input, and the interface is enabled (ie is high). the data transfer is started by a logic high level on sr. the high level on sr must be removed before the end of the tenth output byte, otherwise the transfer is aborted and restarted. the minimum pulse duration corresponds with t spd in the status interrogation timing (see fig.7). the transfer is organized as 15-byte transfers. the contents of each array are extended to 40 bits by trailing zeros. the eeprom data transfer starts with array 1, bit 0. a valid data bit at do is indicated by a low-level on ds as shown in fig.20. during eeprom read-back operation, the PCF5001 configuration and the outputs fl, ol are undefined. after completion of the read-back operation, the PCF5001 will re-enter the programmed configuration. 7.22 voltage converter the PCF5001 contains a switched capacitor-type on-chip voltage converter, which can provide doubled supply voltage to the external microcontroller and display control devices. the microcontroller interface signals are level shifted accordingly. a capacitor of 100 nf (c s ) must be connected between pins cp and cn while a load capacitor of 10 m f is connected to v ref as shown in fig.23. the voltage converter operates in display pager mode only, when enabled by programming spf08 (see table 9). 1997 mar 04 27 philips semiconductors product speci?cation pocsag paging decoder PCF5001 mcd471 - 2 write sel0 sel1 1.5 mhz 1.5 mhz 1 23 4567 42 434445 t pew t pcl t pch t pew t pdh t psi t res pd ps 12 t res pd ps read sel0 sel1 bit0 bit1 bit2 bit37 34 567 4142 434445 t pcl t pch t pdh t psi t pso t prs bit0 bit1 bit2 bit37 fig.19 eeprom read/write timing. 1997 mar 04 28 philips semiconductors product speci?cation pocsag paging decoder PCF5001 fig.20 eeprom data transfer to microcontroller timing. b17 d17 fr12 sr do ds spf 32 mcd472 enc ena t sdd t dse 7.23 test modes of the decoder the decoder supports two test modes, which are intended for use during pager production and type approval tests. 7.23.1 b oard test mode board test mode is selected by setting the pd input low at any time. in this test mode the following features are provided: 1. receiver enable output is set constantly high 2. output al is activated by a low-level on on input 3. output ah is activated by a high-level on sr input 4. outputs ol and om are activated by a high-level on sk input. exit from board test mode is achieved by setting input pd high. 7.23.2 p ager t est m ode (t ype a pproval m ode ) pager test mode is entered by reception of a valid call while board test mode is active, see above. in pager test mode: 1. call alert cadences are terminated after 2 seconds 2. duplicate call suppression is disabled. exit from pager test mode is achieved by disconnecting the power supply from the decoder. 1997 mar 04 29 philips semiconductors product speci?cation pocsag paging decoder PCF5001 8 limiting values in accordance with the absolute maximum rating system (iec 134). note 1. v dd is connected to the substrate (see fig.1), and is referred to as common, 0 v. 9 dc characteristics v dd =0v; v ss = - 2.7 v; v ref = 2.7 v; t amb =25 c; unless otherwise speci?ed. quartz crystal parameters: f = 76800 hz; r s(max) =40k w ; c l =12pf. decoder mode programmed as alert-only (spf01 = 0). symbol parameter conditions min. max. unit v ss supply voltage note 1 +0.5 - 8.0 v v pg programming supply voltage - 5.5 - v v n voltage on pins fl, ds, do, or, bl, ai, on, sk, sr and ie +0.8 v ref - 0.8 v v n1 input voltage on any other pin +0.8 v ss - 0.8 v p tot total power dissipation - 250 mw p o power dissipation per output - 100 mw i i(max) maximum input current (any input) - 10 ma i o(max) maximum output current any output except al - 20 ma output al - 70 ma t amb operating ambient temperature - 40 +85 c t stg storage temperature - 55 +125 c symbol parameter conditions min. typ. max. unit supply v ss supply voltage voltage converter disabled; all outputs open-circuit t amb = - 10 to +85 c - 1.5 - 2.7 - 6.0 v t amb = - 40 to +85 c - 1.8 - 2.7 - 6.0 v i ss supply current note 1 -- 60 - 100 m a v pg programming supply voltage note 2 - 4.5 - 5.0 - 5.5 v i pg programming supply current -- 500 -m a 1997 mar 04 30 philips semiconductors product speci?cation pocsag paging decoder PCF5001 notes 1. all inputs = v ss ; voltage converter off; all outputs open-circuit. 2. see section 7.19 and chapter 8 for limitations of v ref when programming while the voltage converter is enabled. inputs v il1 low level input voltage pd, ps, di, bs, ts, tt and x1 0.7v ss -- v v il2 low level input voltage ai, on, sr, sk and ie 0.7v ref -- v v ih1 high level input voltage pd, ps, di, bs, ts, tt and x1 -- 0.3v ss v v ih2 high level input voltage ai, on, sr, sk and ie -- 0.3v ref v i i input current bs, ps, ts and tt v i =v dd 7.0 - 20.0 m a pd v i =v ss - 9.0 -- 24.0 m a di v i =v dd ; re = 0 7.0 - 20.0 m a di v i =v dd ; re = 1 0 - 0.5 m a on and sk v i =v ss - 0.5 - 0.8 - 1.1 m a ai and sr v i =v dd 7.0 - 20.0 m a c i input capacitance bs, di, pd, ps, ts, tt, ai, on, sr, sk, ie and x1 2 -- pf outputs i ol low level output current ol, om and ah v ol = - 1.35 v 100 --m a do, ds, bl, fl and or v ol = - 1.35 v 100 --m a al v ol = - 1.5 v 17.5 -- ma re v ol = 2.2 v 200 --m a i oh high level output current ol, om and ah v oh = - 1.35 v - 0.8 -- 1.8 ma do, ds, bl, fl and or v oh = - 1.35 v - 100 --m a al al high-impedance --- 0.2 m a re v oh = - 0.5 v - 1.0 -- ma oscillator c xo output capacitance x2 - 40 - pf g m oscillator transconductance v ss = - 1.5 v 15 29 43 m s v ss = - 6.0 v 25 39 55 m s v pu power-up reset threshold voltage -- 1.2 - v symbol parameter conditions min. typ. max. unit 1997 mar 04 31 philips semiconductors product speci?cation pocsag paging decoder PCF5001 10 dc characteristics (with voltage converter) v dd =0v; v ss = - 3.0 v; v ref = - 6.0 v; t amb =25 c. quartz crystal parameters: f = 76800 hz; r s(max) =40k w ; c l =12pf. decoder mode programmed as display pager (spf01 = 1). voltage converter enabled (spf08 = 1); c s = 100 nf. 11 ac characteristics v dd =0v; v ss = - 2.7 v; t amb =25 c. quartz crystal parameters: f = 32768 or 76800 hz; r s(max) =40k w ; c l =12pf. decoder mode programmed as display or alert-only pager (spf01 = 1 or 0). symbol parameter conditions min. typ. max. unit supply v ss supply voltage - 1.5 -- 3.0 v voltage converter v ref(0) output voltage; no load v ss = - 3.0 v - 5.8 -- 6.0 v v ref output voltage v ss = - 2.0 v; i ref = 250 m a - 3.0 - 3.5 - v i ref output current v ss = - 2.0 v; v ref = - 2.7 v 400 600 -m a v ss = - 3.0 v; v ref = - 4.5 v 600 900 -m a inputs i i input current ai, on, sr and sk v i =v ref - 0 - 0.5 m a on and sk v i =v dd - 0 0.5 m a sr v i =v dd ; v ref = - 6.0 v - 17 -m a symbol parameter conditions min. typ. max. unit alert frequency f al alert frequency spf31 = 0 - 2048 - hz f awh high alert warble frequency - 1024 - hz f awl low alert warble frequency - 16 - hz f al alert frequency spf31 = 1 - 2731 - hz f awh high alert warble frequency - 1365 - hz f awl low alert warble frequency - 16 - hz f fl output frequency reference at fl spf32 = 0 - 16384 - hz spf32 = 1 - 32768 - hz 1997 mar 04 32 philips semiconductors product speci?cation pocsag paging decoder PCF5001 call alert duration t alt time-out period - 16 - s t all alert time low (al output only) - 4 - s t alh alert time high (ah and al outputs) - 12 - s t alc call alert cycle time see fig.9 - 1 - s t alp call alert pulse duration see fig.9 - 125 - ms t ald call alert hold off period see fig.8 52 -- ms t rpt repeat alert duration see fig.11 -- 4s t rcr repeat alert recurrence time see fig.11 -- 15 s t rcp repeat alert cycle time -- 500 ms t rpd repeat alert pulse duration -- 250 ms t ston status alert time see fig.10 -- 62.5 ms t stof status alert delay see fig.10 -- 62.5 ms t sua start-up alert time spf02 = 0; see fig.13 -- 500 ms spf02 = 1; see fig.13 -- 453 ms t ora out-of-range alert pulse width see fig.12 -- 62.5 ms t ord out-of-range alert time see fig.12 -- 2s t blal battery low-level alert time -- 16 s receiver control t rxt re transition time c l =5pf -- 100 ns t rxon re establishment time spf04 = 0; spf05 = 1 - 7.8 62.5 ms data output f do data output rate - 2048 - bits/s t dsd strobe period call data see fig.15 480 - 495 m s t dse strobe period eeprom data see fig.20 200 488 1150 m s t dsw data strobe pulse width see fig.15 230 - 250 m s t tdo data output transition time c l = 10 pf; see fig.15 -- 100 ns t dos data output set-up time see fig.15 -- 135 m s t doh data output hold time see fig.15 115 --m s t byd consecutive byte delay 1210 - 1225 m s t cwd inter-codeword delay 1200 bits/s numeric message 3420 --m s t st start condition set-up time see fig.15 4750 --m s t sp stop condition set-up time see fig.15 595 - 615 m s t stl start bit period ol output 480 - 495 m s t spl stop bit period ol output 480 488 495 m s t sdd spf output delay see fig.20 1 - 10 ms symbol parameter conditions min. typ. max. unit 1997 mar 04 33 philips semiconductors product speci?cation pocsag paging decoder PCF5001 12 timing characteristics v dd =0v; v ss = - 2.7 v; t amb =25 c. quartz crystal parameters: f = 32768 or 76800 hz; r s(max) =40k w ; c l =12pf. decoder mode programmed as display or alert-only pager (spf01 = 1 or 0). symbol parameter conditions min. typ. max. unit operating frequency dependent f osc oscillator frequency spf03 = 0 - 32768 - hz spf03 = 1 - 76800 - hz t tdi data input transition time see fig.21 -- 100 m s t di1 data input logic 1 see fig.21 t bit - t di0 data input logic 0 see fig.21 t bit - f di data input rate spf02 = 0 - 512 - bits/s t bit bit period - 1.9531 - ms t cw codeword duration - 62.5 - ms t pa preamble duration 1125 -- ms t bat batch duration - 1062.5 - ms f di data input rate spf02 = 1; f osc = 76800 hz - 1200 - bits/s t bit bit period - 833.3 - ms t cw codeword duration - 26.7 - ms t pa preamble duration 480 -- ms t bat batch duration - 453.3 - ms alert only mode (spf01 = 0) t sdb switch debounce period - 62.5 - ms display pager mode (spf01 = 1); see figs 6 and 7 t stp status set-up time f osc = 32768 hz 35 --m s t std status change delay -- 35 m s t ieh interface enable hold time 35 --m s t sth status hold time 35 --m s t spd status pulse duration 35 --m s t stp status set-up time f osc = 76800 hz 15 --m s t std status change delay -- 15 m s t ieh interface enable hold time 15 --m s t sth status hold time 15 --m s t spd status pulse duration 15 --m s 1997 mar 04 34 philips semiconductors product speci?cation pocsag paging decoder PCF5001 13 programming characteristics v dd =0v; v ss =v pg = - 5.0 v (see notes 1, 2 and 3); v ref =v ss ; pins 2 and 3 open-circuit; t amb =25 c. quartz crystal parameters: f = 32768 hz; r s(max) =40k w ; c l =12pf. decoder in off status. notes 1. v ss =v pg only required during erase/write (t pew in fig.19), otherwise v ss(min) = - 1.5 v. 2. maximum voltage for programming (v pg ) is - 5.5 v. 3. see section 7.19 and chapter 8 for limitations of v ref when programming while the voltage converter is enabled. 4. eeprom programming is also possible at higher frequencies (76.8 khz or 153.6 khz). the timings shown then become proportionally smaller. symbol parameter conditions min. typ. max. unit programming; see fig.19 t res power-up reset pulse width note 4 35 --m s t pew erase/write time 10 -- ms f ew erase/write frequency 1.0 1.5 2.0 mhz t ew erase/write cycles 1000 10000 -- t dr data retention time t amb =85 c10 -- years t pch data clock high time note 4 65 --m s t pcl data clock low time note 4 65 --m s t prs read set-up time note 4 -- 35 m s t psi data set-up time on input note 4 35 --m s t pso data set-up time on output note 4 -- 35 m s t pdh data hold time note 4 35 --m s handbook, halfpage mgl100 t di1 t di0 t tdi fig.21 data input timing. 1997 mar 04 35 philips semiconductors product speci?cation pocsag paging decoder PCF5001 14 application information x1 v dd x2 bs PCF5001 di re pd v ss om ps ol v ref on sr sk ie al ah m 10 pf 32768 hz or 76800 hz data output rx control battery low indicator receiver antenna v cc v ee 1.5v 1.5v mlb046 status reset off on sil fig.22 alert-only pager application example. 1997 mar 04 36 philips semiconductors product speci?cation pocsag paging decoder PCF5001 x1 v dd v ss v dd x2 bs PCF5001 di re cn cp pd v ss om ps ol v ref fl ds do or bl ai on sr sk ie al ah m 1.5v 1.5v switch matrix micro controller 10 pf 32768 hz or 76800 hz data output rx control battery low indicator receiver antenna 100 nf lcd v cc v ee mlb047 c s 10 f m fig.23 display-pager application example. 1997 mar 04 37 philips semiconductors product speci?cation pocsag paging decoder PCF5001 15 package outlines unit a max. a 1 a 2 a 3 b p cd (1) e (1) (1) eh e ll p q z y w v q references outline version european projection issue date iec jedec eiaj mm inches 2.65 0.30 0.10 2.45 2.25 0.49 0.36 0.32 0.23 18.1 17.7 7.6 7.4 1.27 10.65 10.00 1.1 1.0 0.9 0.4 8 0 o o 0.25 0.1 dimensions (inch dimensions are derived from the original mm dimensions) note 1. plastic or metal protrusions of 0.15 mm maximum per side are not included. 1.1 0.4 sot136-1 91-08-13 95-01-24 x 14 28 w m q a a 1 a 2 b p d h e l p q detail x e z c l v m a e 15 1 (a ) 3 a y 0.25 075e06 ms-013ae pin 1 index 0.10 0.012 0.004 0.096 0.089 0.019 0.014 0.013 0.009 0.71 0.69 0.30 0.29 0.050 1.4 0.055 0.42 0.39 0.043 0.039 0.035 0.016 0.01 0.25 0.01 0.004 0.043 0.016 0.01 0 5 10 mm scale so28: plastic small outline package; 28 leads; body width 7.5 mm sot136-1 1997 mar 04 38 philips semiconductors product speci?cation pocsag paging decoder PCF5001 unit a max. a 1 a 2 a 3 b p ce (1) eh e ll p qz y w v q references outline version european projection issue date iec jedec eiaj mm 1.60 0.20 0.05 1.45 1.35 0.25 0.4 0.3 0.18 0.12 7.1 6.9 0.8 9.15 8.85 0.69 0.59 0.9 0.5 7 0 o o 0.25 0.1 1.0 0.2 dimensions (mm are the original dimensions) note 1. plastic or metal protrusions of 0.25 mm maximum per side are not included. 0.75 0.45 sot358 -1 93-06-29 95-12-19 d (1) (1) (1) 7.1 6.9 h d 9.15 8.85 e z 0.9 0.5 d b p e q e a 1 a l p q detail x l (a ) 3 b 8 c d h b p e h a 2 v m b d z d a z e e v m a x 1 32 25 24 17 16 9 y pin 1 index w m w m 0 2.5 5 mm scale lqfp32: plastic low profile quad flat package; 32 leads; body 7 x 7 x 1.4 mm sot358-1 1997 mar 04 39 philips semiconductors product speci?cation pocsag paging decoder PCF5001 16 soldering 16.1 introduction there is no soldering method that is ideal for all ic packages. wave soldering is often preferred when through-hole and surface mounted components are mixed on one printed-circuit board. however, wave soldering is not always suitable for surface mounted ics, or for printed-circuits with high population densities. in these situations reflow soldering is often used. this text gives a very brief insight to a complex technology. a more in-depth account of soldering ics can be found in our ic package databook (order code 9398 652 90011). 16.2 re?ow soldering reflow soldering techniques are suitable for all lqfp and so packages. reflow soldering requires solder paste (a suspension of fine solder particles, flux and binding agent) to be applied to the printed-circuit board by screen printing, stencilling or pressure-syringe dispensing before package placement. several techniques exist for reflowing; for example, thermal conduction by heated belt. dwell times vary between 50 and 300 seconds depending on heating method. typical reflow temperatures range from 215 to 250 c. preheating is necessary to dry the paste and evaporate the binding agent. preheating duration: 45 minutes at 45 c. 16.3 wave soldering 16.3.1 lqfp wave soldering is not recommended for lqfp packages. this is because of the likelihood of solder bridging due to closely-spaced leads and the possibility of incomplete solder penetration in multi-lead devices. if wave soldering cannot be avoided, the following conditions must be observed: a double-wave (a turbulent wave with high upward pressure followed by a smooth laminar wave) soldering technique should be used. the footprint must be at an angle of 45 to the board direction and must incorporate solder thieves downstream and at the side corners. even with these conditions, do not consider wave soldering lqfp packages lqfp48 (sot313-2), lqfp64 (sot314-2) or lqfp80 (sot315-1). 16.3.2 so wave soldering techniques can be used for all so packages if the following conditions are observed: a double-wave (a turbulent wave with high upward pressure followed by a smooth laminar wave) soldering technique should be used. the longitudinal axis of the package footprint must be parallel to the solder flow. the package footprint must incorporate solder thieves at the downstream end. 16.3.3 m ethod (lqfp and so) during placement and before soldering, the package must be fixed with a droplet of adhesive. the adhesive can be applied by screen printing, pin transfer or syringe dispensing. the package can be soldered after the adhesive is cured. maximum permissible solder temperature is 260 c, and maximum duration of package immersion in solder is 10 seconds, if cooled to less than 150 c within 6 seconds. typical dwell time is 4 seconds at 250 c. a mildly-activated flux will eliminate the need for removal of corrosive residues in most applications. 16.4 repairing soldered joints fix the component by first soldering two diagonally- opposite end leads. use only a low voltage soldering iron (less than 24 v) applied to the flat part of the lead. contact time must be limited to 10 seconds at up to 300 c. when using a dedicated tool, all other leads can be soldered in one operation within 2 to 5 seconds between 270 and 320 c. 1997 mar 04 40 philips semiconductors product speci?cation pocsag paging decoder PCF5001 17 definitions 18 life support applications these products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify philips for any damages resulting from such improper use or sale. data sheet status objective speci?cation this data sheet contains target or goal speci?cations for product development. preliminary speci?cation this data sheet contains preliminary data; supplementary data may be published later. product speci?cation this data sheet contains ?nal product speci?cations. limiting values limiting values given are in accordance with the absolute maximum rating system (iec 134). stress above one or more of the limiting values may cause permanent damage to the device. these are stress ratings only and operation of the device at these or at any other conditions above those given in the characteristics sections of the speci?cation is not implied. exposure to limiting values for extended periods may affect device reliability. application information where application information is given, it is advisory and does not form part of the speci?cation. 1997 mar 04 41 philips semiconductors product speci?cation pocsag paging decoder PCF5001 notes 1997 mar 04 42 philips semiconductors product speci?cation pocsag paging decoder PCF5001 notes 1997 mar 04 43 philips semiconductors product speci?cation pocsag paging decoder PCF5001 notes internet: http://www.semiconductors.philips.com philips semiconductors C a worldwide company ? philips electronics n.v. 1997 sca53 all rights are reserved. reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. the information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. no liability will be accepted by the publisher for any consequence of its use. publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights. netherlands: postbus 90050, 5600 pb eindhoven, bldg. vb, tel. +31 40 27 82785, fax. +31 40 27 88399 new zealand: 2 wagener place, c.p.o. box 1041, auckland, tel. +64 9 849 4160, fax. +64 9 849 7811 norway: box 1, manglerud 0612, oslo, tel. +47 22 74 8000, fax. +47 22 74 8341 philippines: philips semiconductors philippines inc., 106 valero st. salcedo village, p.o. box 2108 mcc, makati, metro manila, tel. +63 2 816 6380, fax. +63 2 817 3474 poland: ul. lukiska 10, pl 04-123 warszawa, tel. +48 22 612 2831, fax. +48 22 612 2327 portugal: see spain romania: see italy russia: philips russia, ul. usatcheva 35a, 119048 moscow, tel. +7 095 755 6918, fax. +7 095 755 6919 singapore: lorong 1, toa payoh, singapore 1231, tel. +65 350 2538, fax. +65 251 6500 slovakia: see austria slovenia: see italy south africa: s.a. philips pty ltd., 195-215 main road martindale, 2092 johannesburg, p.o. box 7430 johannesburg 2000, tel. +27 11 470 5911, fax. +27 11 470 5494 south america: rua do rocio 220, 5th floor, suite 51, 04552-903 s?o paulo, s?o paulo - sp, brazil, tel. +55 11 821 2333, fax. +55 11 829 1849 spain: balmes 22, 08007 barcelona, tel. +34 3 301 6312, fax. +34 3 301 4107 sweden: kottbygatan 7, akalla, s-16485 stockholm, tel. +46 8 632 2000, fax. +46 8 632 2745 switzerland: allmendstrasse 140, ch-8027 zrich, tel. +41 1 488 2686, fax. +41 1 481 7730 taiwan: philips semiconductors, 6f, no. 96, chien kuo n. rd., sec. 1, taipei, taiwan tel. +886 2 2134 2870, fax. +886 2 2134 2874 thailand: philips electronics (thailand) ltd., 209/2 sanpavuth-bangna road prakanong, bangkok 10260, tel. +66 2 745 4090, fax. +66 2 398 0793 turkey: talatpasa cad. no. 5, 80640 gltepe/istanbul, tel. +90 212 279 2770, fax. +90 212 282 6707 ukraine : philips ukraine, 4 patrice lumumba str., building b, floor 7, 252042 kiev, tel. +380 44 264 2776, fax. +380 44 268 0461 united kingdom: philips semiconductors ltd., 276 bath road, hayes, middlesex ub3 5bx, tel. +44 181 730 5000, fax. +44 181 754 8421 united states: 811 east arques avenue, sunnyvale, ca 94088-3409, tel. +1 800 234 7381 uruguay: see south america vietnam: see singapore yugoslavia: philips, trg n. pasica 5/v, 11000 beograd, tel. +381 11 625 344, fax.+381 11 635 777 for all other countries apply to: philips semiconductors, marketing & sales communications, building be-p, p.o. box 218, 5600 md eindhoven, the netherlands, fax. +31 40 27 24825 argentina: see south america australia: 34 waterloo road, north ryde, nsw 2113, tel. +61 2 9805 4455, fax. +61 2 9805 4466 austria: computerstr. 6, a-1101 wien, p.o. box 213, tel. +43 1 60 101, fax. +43 1 60 101 1210 belarus: hotel minsk business center, bld. 3, r. 1211, volodarski str. 6, 220050 minsk, tel. +375 172 200 733, fax. +375 172 200 773 belgium: see the netherlands brazil: see south america bulgaria: philips bulgaria ltd., energoproject, 15th floor, 51 james bourchier blvd., 1407 sofia, tel. +359 2 689 211, fax. +359 2 689 102 canada: philips semiconductors/components, tel. +1 800 234 7381 china/hong kong: 501 hong kong industrial technology centre, 72 tat chee avenue, kowloon tong, hong kong, tel. +852 2319 7888, fax. +852 2319 7700 colombia: see south america czech republic: see austria denmark: prags boulevard 80, pb 1919, dk-2300 copenhagen s, tel. +45 32 88 2636, fax. +45 31 57 1949 finland: sinikalliontie 3, fin-02630 espoo, tel. +358 9 615800, fax. +358 9 61580/xxx france: 4 rue du port-aux-vins, bp317, 92156 suresnes cedex, tel. +33 1 40 99 6161, fax. +33 1 40 99 6427 germany: hammerbrookstra?e 69, d-20097 hamburg, tel. +49 40 23 53 60, fax. +49 40 23 536 300 greece: no. 15, 25th march street, gr 17778 tavros/athens, tel. +30 1 4894 339/239, fax. +30 1 4814 240 hungary: see austria india: philips india ltd, shivsagar estate, a block, dr. annie besant rd. worli, mumbai 400 018, tel. +91 22 4938 541, fax. +91 22 4938 722 indonesia: see singapore ireland: newstead, clonskeagh, dublin 14, tel. +353 1 7640 000, fax. +353 1 7640 200 israel: rapac electronics, 7 kehilat saloniki st, tel aviv 61180, tel. +972 3 645 0444, fax. +972 3 649 1007 italy: philips semiconductors, piazza iv novembre 3, 20124 milano, tel. +39 2 6752 2531, fax. +39 2 6752 2557 japan: philips bldg 13-37, kohnan 2-chome, minato-ku, tokyo 108, tel. +81 3 3740 5130, fax. +81 3 3740 5077 korea: philips house, 260-199 itaewon-dong, yongsan-ku, seoul, tel. +82 2 709 1412, fax. +82 2 709 1415 malaysia: no. 76 jalan universiti, 46200 petaling jaya, selangor, tel. +60 3 750 5214, fax. +60 3 757 4880 mexico: 5900 gateway east, suite 200, el paso, texas 79905, tel. +9-5 800 234 7381 middle east: see italy printed in the netherlands 437027/00/05/pp44 date of release: 1997 mar 04 document order number: 9397 750 01626 |
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