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| 1. general description the uja1023 is a stand-alone local interconne ct network (lin) i/o slave that replaces basic components commonly used in electronic control units for input and output handling. the uja1023 contains a lin 2.0 controller, an integrated lin tr ansceiver which is lin 2.0 / sae j2602 compliant a nd lin 1.3 compatible, a 30 k termination resistor necessary for lin-slaves, and eight i/o ports which are configurable via the lin bus. an automatic bit rate synchroni zation circuit adapts to an y (master) bit rate between 1 kbit/s and 20 kbit/s. for this, an oscillator is integrated. the lin protocol will be hand led autonomously and both node address (nad) and lin frame identifier (id) programmi ng will be done by a master request and an optional slave response message in combination with a daisy chain or plug coding function. the eight bidirectional i/o pins are configurable via lin bus messages and can have the following functions: ? input: ? standard input pin ? local wake-up ? edge capturing on falling, rising or both edges ? analog input pin ? switch matrix (in comb ination with output pins) ? output: ? standard output pin as high-side driver, low-side driver or push-pull driver ? cyclic sense mode for local wake-up ? pulse width modulation (pwm) mode; fo r example, for back light illumination ? switch matrix (in comb ination with input pins) on entering a low-power mode it is possible to hold the last output state or to change over to a user programmable output state. in case of a failure (e.g. lin bus short to ground) the output changes over to a user programmabl e limp home output state and the low-power limp home mode will be entered. due to the advanced low-power behavior the power consumption of the uja1023 in low-power mode is minimal. uja1023 lin-i/o slave rev. 5 ? 17 august 2010 product data sheet
uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 2 of 49 nxp semiconductors uja1023 lin-i/o slave 2. features and benefits �? automatic bit rate synchronization to any (master) bit rate between 1 kbit/s and20kbit/s �? integrated lin 2.0 / sae j2602 transceiver (including 30 k termination resistor) �? eight bidirectional i/o pins �? 4 2, 4 3, or 4 4 switch matrix to support reading and supplying a maximum number of 16 switches �? outputs configurable as high-side and/or lo w-side driver and as cyclic or pwm driver �? 8-bit adc �? advanced low-power behavior �? on-chip oscillator �? node address (nad) configuration via daisy chain or plug coding �? inputs supporting local wake-up and edge capturing �? configurable sleep mode �? limp home configuration in case of error conditions �? extremely low electromagnetic emission �? high immunity against electromagnetic interference �? bus line protected in accordance with iso 7637 �? extended ambient temperature range ( ? 40 cto+125 c) 3. quick reference data [1] valid for the UJA1023T/2r04/c; for the UJA1023T/2r04, v bat = 6.5 v to 27 v. [2] all outputs turned off, lin recessive, v th1 selected. [3] junction temperature in accordance with iec60747-1. an alternative definition of t vj =t amb +p r th(j-a) , where r th(j-a) is a fixed value to be used for calculating t vj . the rating for t vj limits the allowable combinations of power dissipat ion (p) and ambient temperature (t amb ). table 1. quick reference data symbol parameter conditions min typ max unit v bat supply voltage on pin bat all operating modes [1] 5.5 - 27 v i bat supply current on pin bat lh sleep, sleep and limp home mode; v bat = 8.1 v to 27 v [2] -4565 a v lin voltage on pin lin dc value ? 27 - +40 v t vj virtual junction temperature [3] ? 40 - +150 c v esd electrostatic discharge voltage on pins lin, bat, c1, c2 and c3 human body model; c=100pf; r=1.5k ? 8- +8 kv uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 3 of 49 nxp semiconductors uja1023 lin-i/o slave 4. ordering information [1] v bat = 5.5 v to 27 v for the UJA1023T/2r04/c; v bat = 6.5 v to 27 v for the UJA1023T/2r04 (see table 32 ). 5. block diagram table 2. ordering information type number package name description version UJA1023T/2r04/c [1] so16 plastic small outline package; 16 leads; body width 3.9 mm sot109-1 UJA1023T/2r04 [1] so16 plastic small outline package; 16 leads; body width 3.9 mm sot109-1 fig 1. block diagram mdb488 termination oscillator cyclic sense pwm adc inh i/o block lin transceiver configuration auto bit rate detection voltage regulator lin controller vio inh p0 to p7 c1 to c3 lin bat gnd 3 1 2 9 to 16 4 6 to 8 5 uja1023 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 4 of 49 nxp semiconductors uja1023 lin-i/o slave 6. pinning information 6.1 pinning 6.2 pin description [1] i = input; o = output; i/o = input or output. fig 2. pin configuration UJA1023T vio p7 inh p6 bat p5 lin p4 gnd p3 c1 p2 c2 p1 c3 p0 001aab877 1 2 3 4 5 6 7 8 10 9 12 11 14 13 16 15 table 3. pin description symbol pin type [1] description vio 1 i reference input for level adaptation of the i/o pins p0 to p7 inh 2 o inhibit output for controlling an external voltage regulator or internal adc bat 3 i battery supply lin 4 i/o lin bus line gnd 5 i ground c1 6 i configuration input 1 for lin slave nad assignment c2 7 i configuration input 2 for lin slave nad assignment c3 8 i/o configuration input / output 3 for lin slave nad assignment p0 9 i/o bidirectional i/o pin 0 p1 10 i/o bidirectional i/o pin 1 p2 11 i/o bidirectional i/o pin 2 p3 12 i/o bidirectional i/o pin 3 p4 13 i/o bidirectional i/o pin 4 p5 14 i/o bidirectional i/o pin 5 p6 15 i/o bidirectional i/o pin 6 p7 16 i/o bidirectional i/o pin 7 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 5 of 49 nxp semiconductors uja1023 lin-i/o slave 7. functional description the uja1023 combines all blocks necessary to work as a stand-alone lin slave. various i/o functions typically used in a car are suppo rted. for a more detailed description refer to section 7.2 to section 7.6 . the block diagram is shown in figure 1 . 7.1 short description of the uja1023 7.1.1 lin controller the lin 2.0 controller monitors and evaluates the lin messages in order to process the lin commands. it supervises and executes the nad assignment, id assignment and i/o-configuration and controls the operating modes of the uja1023. the nad configuration is done by a combination of a lin master request frame and a setting done by either a daisy chain or plug id code. 7.1.2 lin transceiver (including termination) the lin transceiver, which is lin 2.0 / sae j2602 compliant, is the interfac e between the internal lin controller and the physical lin bus. the transmit data stream of the lin controller is converted into a bus signal with an optimized wave shape to minimize electromagnetic emission. the required lin slave termination of 30 k is already integrated. in case of lin bus faults the uja1023 switches to the low-power limp home mode. 7.1.3 automatic bit rate detection the automatic bit rate detection adapts to the lin master?s bit rate. any bit rate between 1 kbit/s and 20 kbit/s can be handled. this block checks whether the synchronization break and synchronization field are valid . if not, the message will be rejected. 7.1.4 oscillator the on-chip oscillator provides the internal clock signal for so me digital functions and is the time reference for the au tomatic bit rate detection. 7.1.5 i/o block the i/o block controls the conf iguration of the i/o pins. the lin master configures the i/o pin functionality by means of a master request frame and an optional slave response frame. besides the standard level input and output behavior the following functions are also handled by the uja1023: local wake-up, cycli c input, edge capture, pwm output, switch matrix i/o and ad conversion. 7.1.6 adc with three external components an 8-bit adc function can be implemented. each of the eight bidirectional i/o pins can be used as input for the adc, one at a time. 7.1.7 pwm each pin can be configured with a pulse widt h modulation (pwm) function. the resolution is 8-bit and the base frequency is approximately 2.7 khz. uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 6 of 49 nxp semiconductors uja1023 lin-i/o slave 7.1.8 cyclic sense to reduce current consumption, the cyclic sense function can be used to read a switch. the switch will be supplied and read back periodically. 7.2 lin controller 7.2.1 configuration in this data sheet basic knowledge of the ?lin diagnostic and configuration specification, rev. 2.0? is expected. 7.2.1.1 message sequence the uja1023 conforms to the ?lin diagnostic and configurat ion specification, rev. 2.0? and is compatible with lin 1.3. the uja1023 can be configured via the lin command frames ?master request? (masterreq) and ?slave response ? (slaveresp). both frames consist of eight data bytes. the masterreq is used to send configuration data from the master to the slaves, whereas the slave being addre ssed by the prior masterreq will an swer with the related data on demand. depending on the usage of the masterreq the meaning of the data bytes can be different. thus each lin slave evaluates these data bytes. using masterreq and slaveres p for the uja1023 configuration flow, as shown in figure 3 , is a so-called ?handshake? concept. the slave echoes its received masterreq data in the slaveresp, so the master can review slave configuration data. the use of the slaveresp is optional. the configuration flow is not disturbe d if lin commands other than shown in figure 3 are sent to other lin slave nodes. thus the li n master can transmit other lin messages while it (re)configures the uja1023. remarks: ? the i/o configuration will be enabled during the first usage of the uja1023 message frames (see section 7.2.5 ) of the pxresp or pxreq ? notation px is used in this document when refe rring to a function or property of any of the i/o pins p0 to p7 ? for correct i/o configuration, the configurat ion requests must be sent in sequential order of first, second and third configuration data block xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 7 of 49 nxp semiconductors uja1023 lin-i/o slave fig 3. typical configuration flow mce65 3 masterreq id: 3c assign nad (optional) id: 3d slaveresp assign frame id slave i/o configuration via data dump enable new i/o configuration configured pxresp rxreq masterreq id: 3c id: 3d slaveresp masterreq id: 3c id: 3d slaveresp uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 8 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.1.2 lin slave node address assignment the default slave node address (nad) after power-on depends on the input levels of the configuration pins c1, c2 and c3. these pins will be sampled directly after the power-on event. the relation between the configuration pins and the nad is shown in ta b l e 4 . in case a different nad is necessary the assign nad command has to be used. the assign nad request is carried out if the service identifier (sid) in the third data byte of the masterreq is the assign nad request and the fourth to seventh data bytes are the lin supplier codes of philips (0x0011) and uja1023 functi on id (0x0000). [1] d = different values possible; see table 6 . table 4. default nad after power-on configuration pins default nad (hex) c3 c2 c1 00060 00161 01062 01163 10064 10165 11066 11167 table 5. data bytes of assign nad request [1] data byte 7 6 5 4 3 2 1 0 default value (hex) d0dddddddd08 d10000011006 d210110000b0 d30001000111 d40000000000 d50000000000 d60000000000 d7 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 9 of 49 nxp semiconductors uja1023 lin-i/o slave the format of the positive response is shown in ta b l e 7 . [1] d = different values possible; see table 6 . the nad assignment can be done via daisy chain (dc), (see section ? daisy chain nad assignment ? ) as well as via plug id (see section ? plug id nad assignment ? ). the type of nad assignment can be distinguished on the va lue of the initial nad, which is the first data byte d0 of the masterreq assign nad request. for reliability reasons the assignment mode decision is valid only if the combination of d0 to d6 (see ta b l e 5 ) is true. after power-on the uja1023 message identifiers pxreq and pxresp (see section 7.2.5 ) are disabled. this is also true fo r nad reassignment. in this case the message identifiers pxreq, pxresp and i/o configuration are disabled. table 6. bit description of assign nad request byte bit symbol description d0 7 to 0 c[3:1] initial nad. this byte de fines the initial nad, refer to the related items topics 0x08 to 0x0f (d0[0] = c1, d0[1] = c2 and d0[2] = c3) defines plug id ; d0[3] = 1 for plug id configuration 0x20 = daisy chain on; enable daisy chain pin drivers and receivers 0x21 = assign nad via daisy chain 0x23 = daisy chain off; disable daisy chain pin drivers and receivers d1 7 to 0 pci protocol control information. d2 7 to 0 sid service identifier. as sl averesp the rsid code will be 0xf0. d3 and d4 7 to 0 - supplier id. fixed code 0x0011 for philips. d5 and d6 7 to 0 - function id. for the uja1023 this code is fixed as 0x0000. d7 7 to 0 nad[7:0] slave node address (nad). nad values are in the range 1 to 127, while 0 and 128 to 255 are reserved for other purposes. table 7. positive response assign nad request [1] data byte 7 6 5 4 3 2 1 0 default value (hex) d0dddddddd08 d10000000101 d211110000f0 d311111111ff d411111111ff d511111111ff d611111111ff d711111111ff uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 10 of 49 nxp semiconductors uja1023 lin-i/o slave daisy chain nad assignment: once the uja1023 receives the assign nad masterreq frame and the type of configuration is daisy chain, the following acti ons can take place, depending on the initial nad value: ? initial nad 0x20: daisy chain on, the c1 to c3 pin drivers are enabled ? initial nad 0x21: the input leve l on the configuration pin c1 and the status flag of the internal dc-switch is read. the uja102 3 will be configured if c1 is low and the dc-switch is open (see slave 2 in figure 4 ). the uja1023 under daisy chain configuration uses the data byte d7 as new nad for its further lin configuration requests (e.g. assign frame id). after the nad assignment the dc-switch at pin c3 is closed, which puts through the daisy chain signal to the next slave. the switch will be opened again as soon as an assign nad request with initial nad daisy chain off has been received ? initial nad 0x23: daisy chain off, the c1 to c3 pin drivers are disabled after the nad assignment, for example, the ?assign frame id? can be used to assign specific id numbers. the internal pull-up resistors at pin c1 to c3 are active during the assign nad process only. thus it causes no permanent current (see also section 7.4 ) and reduces power consumption especially in the low-power modes. remark: there is no slave response to assign nad requests using the initial nad 0x20 and nad 0x23. xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 11 of 49 nxp semiconductors uja1023 lin-i/o slave fig 4. daisy chain id plug mdb492 1 master gnd bat plug lin lin bat bat gnd gnd c3 c2 c1 uja1023 configured not configured plug plug assign nad initial nad = daisy chain dc flag & bat bat 2 lin bat gnd c3 c2 c1 uja1023 in configuration assign nad initial nad = daisy chain dc flag & bat bat n lin bat gnd c3 c2 c1 uja1023 assign nad initial nad = daisy chain dc flag & bat bat uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 12 of 49 nxp semiconductors uja1023 lin-i/o slave plug id nad assignment: here the uja1023 can be addressed via the pins c1, c2, and c3. once the assign nad masterreq with th e initial nad ?plug id configuration? is received, the uja1023 compares the values of the configuration pins c3, c2, and c1 with the values of the data bits d0[2:0]. if the va lues are equal and bits d0[7:4] are logic 0 and d0[3] is logic 1, the value of d7 is used as new nad for the uja1023. next, for example, the ?assign frame id? can be used to assign specific id numbers. the internal pull-up resistors at pin c1 to c3 are active during the assign nad process only. thus it causes no permanent current (see also section 7.4 ) and reduces power consumption especially in the low-power modes. xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 13 of 49 nxp semiconductors uja1023 lin-i/o slave fig 5. plug id plug mdb493 assign nad comparator initial nad = plug 1 master bat bat bat data byte 7 nad c1 = 1 c2 = 1 c3 = 1 c1 = 0 c2 = 1 c3 = 1 c1 = 0 c2 = 0 c3 = 0 d0.0 d0.1 d0.2 gnd bat plug lin lin bat bat gnd gnd c3 c2 c1 uja1023 assign nad comparator initial nad = plug 8 bat bat bat data byte 7 nad d0.0 d0.1 d0.2 plug lin c3 c2 c1 uja1023 assign nad comparator initial nad = plug 2 bat bat bat data byte 7 nad d0.0 d0.1 d0.2 plug lin bat gnd c3 c2 c1 uja1023 bat gnd uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 14 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.1.3 assign frame id by means of the assign frame id comm and the lin message identifier pxreq and pxresp can be changed to the desired values. the format of the positive response is shown in ta b l e 1 0 . table 8. assign frame id request bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000011006 d210110001b1 d30001000111 d40000000000 d50000000000 d60000000000 d7 id7 id6 id5 id4 id3 id2 id1 id0 protected id table 9. assign frame id request bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad ). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 sid[7:0] service ident ifier. as slaveresp the rsid code will be 0xf1. d3 and d4 7 to 0 - supplier id. fixed to 0x0011 for philips. d5 and d6 7 to 0 - message id. defines the assignment of the protected id to pxresp and pxreq 0x0000: pxreq = protected id ; pxresp = protected id + 1 0x0001: pxreq = unchanged; pxresp = protected id 0x0002: pxreq = protect ed id; pxresp = unchanged d7 7 to 0 id[7:0] protected id. defines the protected id. table 10. positive response assign frame id data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000000101 d211110001f1 d311111111ff d411111111ff d511111111ff d611111111ff d711111111ff uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 15 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.1.4 read by identifier it is possible to read the supplier identifier, function identifier and the variant of the uja1023 by means of the read by identifier re quest. the format for this request is shown in ta b l e 11 . the positive response is shown in ta b l e 1 3 , the negative response is shown in ta b l e 1 4 . [1] d = different values possible; see table 12 . table 11. read by identifier (lin product identification) data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000011006 d210110010b2 d30000000000 d40001000111 d50000000000 d60000000000 d70000000000 table 12. read by identifier bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 sid[7:0] service identifier. as slaveresp the rsid code will be 0xf2 for a positive response and 0x7f for a negative response. d3 7 to 1 - identifier. only the lin pr oduct identifier 0x00 is supported. d4 and d5 7 to 0 - supplier id. fixed to 0x0011 for philips. d6 and d7 7 to 0 - function id. for the uja1023 this code is fixed to 0x0000. table 13. read by identifier positive response [1] data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000011006 d211110010f2 d30001000111 d40000000000 d50000000000 d60000000000 d7ddddddddvariant uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 16 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.1.5 i/o configuration the i/o configuration is done via the lin co nfiguration request ?data dump?, where the first data byte of the masterreq contains the slave node address nad. the i/o-pin configuration process starts only, if the received slave node address matches the own uja1023 node address and if data byte d2 (sid) is 0xb4. as with the other configurati on commands, the master transmits the i/o-pin configuration data via the masterreq message. due to the limited amount of data bytes within the lin configuration command ?data dump?, the config uration and diagnosis is split-up into four blocks. the configuration and diagnosis blocks are distinguished on bits 6 and 7 of data byte d3. the master can review the new configuration data via the slaveresp message. finally if the master considers the received conf iguration data of the lin-i/o to be correct, it can enable the slave i/o-configuration by using the uja1023 message frames (see section 7.2.5 ) pxresp or pxreq. it should be noted that for correct i/o config uration, the configuration requests must be sent in sequential order of: first, second and third configuration data block. table 14. read by identifier negative response data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000001103 d2011111117f d310110010b2 d40001001012 d511111111ff d611111111ff d711111111ff table 15. first i/o configuration data block bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000011006 d210110100b4 d3 0 0 im1 im0 rxdl adcin2 adcin1 adcin0 00 d4 hse7 hse6 hse5 hse4 hse3 hse2 hse1 hse0 00 d5 lse7 lse6 lse5 lse4 lse3 lse2 lse1 lse0 00 d6 om0_7 om0_6 om0_5 om0_4 om0_3 om0_2 om0_1 om0_0 00 d7 om1_7 om1_6 om1_5 om1_4 om1_3 om1_2 om1_1 om1_0 00 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 17 of 49 nxp semiconductors uja1023 lin-i/o slave table 16. first i/o configuratio n data block bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 sid[7:0] service identifier. as slaveresp the rsid value will be 0xf4. d3 7 and 6 - 00 for first configuration data block. 5 and 4 im[1:0] pin inh mode. mode will be changed after pxreq or pxresp 00 = external regulator (control of external voltage regulator) 01 = adc 10 = reserved, if selected both bits will be logic 1 11 = switch open 3 rxdl receive data length. message pxreq contains two data bytes if rxdl = 0 and three data bytes if rxdl = 1. 2 to 0 adcin[2:0] analog source channel se lection. the number of adcin[2:0] determines which of the p7 to p0 input is used. for example if adcin[2:0] = 101 then p5 wi ll be the input. adcin[2:0] is used only if adc mode is selected (im[1:0] = 01) and rxdl = 0 (no analog input selection at pxreq). d4 7 to 0 hse[7:0] high-side enable for i/o pin px. d5 7 to 0 lse[7:0] low-side enable for i/o pin px. d6 and d7 7 to 0 om0_[7:0], om1_[7:0] output mode for i/o pin px. om1_x om0_x 00 level 0 1 reserved 1 0 cyclic sense 11 pwm uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 18 of 49 nxp semiconductors uja1023 lin-i/o slave the second configuration data block (shown in ta b l e 1 7 ) is selected only if d3.7 = 0 and d3.6 = 1. table 17. second i/o configuration data block bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000011006 d210110100b4 d3 0 1 lslp txdl smc smw sm1 sm0 40 d4 cm0_7 cm0_6 cm0_5 cm0_4 cm0_3 cm0_2 cm0_1 cm0_0 00 d5 cm1_7 cm1_6 cm1_5 cm1_4 cm1_3 cm1_2 cm1_1 cm1_0 00 d6 th2/th1 th2/th1 th2/th1 th2/th1 th2/th1 th2/th1 th2/th1 th2/th1 00 d7 lwm7 lwm6 lwm5 lwm4 lwm3 lwm2 lwm1 lwm0 00 table 18. second i/o configuration data block bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 sid[7:0] service identifier. as slaveresp the rsid value will be 0xf4. d3 7 and 6 - 01 for the second configuration data block. 5 lslp limp home sleep mode. if lslp = 1, the limp home sleep mode is enabled. in this case the limp home value (lh) is automatically used as output value if the sleep mode is entered. 4 txdl transmit data length. message pxresp contains two data bytes if txdl = 0 and four data bytes if txdl = 1. 3 smc switch matrix capture. if smc = 1, the switch matrix capture mode is enabled. 2 smw switch matrix wake-up. if smw = 1, the switch matrix wakes up upon changed input level. 1 and 0 sm[1:0] switch matrix enable 00 = no switch matrix 01 = 4 2: p3 to p0 input and p5 and p4 strong pull down 10 = 4 3: p3 to p0 input and p6 to p4 strong pull down 11 = 4 4: p3 to p0 input and p7 to p4 strong pull down unassigned pins can be used as i/o. it should be noted, however, that for the unassigned pins, which are configured in capture mode, the capt ured edge value will not be transferred. uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 19 of 49 nxp semiconductors uja1023 lin-i/o slave ta b l e 1 9 shows the third configuration data block, that is used to define the slope of the transmitter, selection betwee n classic or enhanced checksum model, limp home output value and pwm initial value. it is se lected only if d3.7 = 1 and d3.6 = 0. [1] r = reserved, must be ?0?. d4 and d5 7 to 0 cm0_[7:0], cm1_[7:0] capture mode for i/o pin px. cm1_x cm0_x 0 0 no capture 0 1 falling edge 1 0 rising edge 1 1 both edges d6 7 to 0 th2 and th1 threshold select. if logic 0 (= th1), selects v th1 as input threshold. if logic 1 (= th2) selects v th2 as input threshold, except in cyclic sense mode, then v th3 is selected. d7 7 to 0 lwm_[7:0] local wake-up mask. if lwm_x = 1, the corresponding px pin is configured as local wake-up pin. lwm_x is ignored if px is configured as switch matrix. table 19. third i/o configuration data block bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000010004 d210110100b4 d3 [1] 10rrrrlscecc80 d4 lh7 lh6 lh5 lh4 lh3 lh2 lh1 lh0 00 d5 pwm7 pwm6 pwm5 pwm4 pwm3 pwm2 pwm1 pwm0 00 d611111111ff d711111111ff table 20. third i/o configuration data block bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 sid[7:0] service identifier. as slaveresp the rsid value will be 0xf4. table 18. second i/o configuration data block bit description ?continued byte bit symbol description uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 20 of 49 nxp semiconductors uja1023 lin-i/o slave ta b l e 2 1 shows the fourth data block, that is se lected if d3.6 = 1 and d3.7 = 1. it is not used for i/o-pin configuration but to provide the master with diagnosis data of the uja1023. it is a read-only data block. if the slave node address matches and the fourth data block is selected, the uja1023 transmits its diagnosis data via the slaveresp message. d3 7 and 6 - 10 for the third configuration data block. 5 to 2 - reserved. must be 0. 1 lsc lin slope control 0 = up to 20 kbit/s (default) 1 = up to 10.4 kbit/s 0 ecc enhanced checksum control 0 = classic checksum (default) 1 = enhanced checksum d4 7 lh[7:0] limp home value. output value in limp home and limp home sleep mode. d5 7 to 0 pwm[7:0] pwm initial value. d6 and d7 7 to 0 - not used. table 21. fourth i/o diagnostic data block request frame bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000001002 d210110100b4 d311000000c0 d411111111ff d511111111ff d611111111ff d711111111ff table 22. fourth i/o diagnostic data block request frame bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7to0 sid[7:0] se rvice identifier. d3 7 and 6 - 11 for the fourth configuration data block. 5 to 0 - not used. d4 to d7 7 to 0 - not used. table 20. third i/o configuration data block bit description ?continued byte bit symbol description uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 21 of 49 nxp semiconductors uja1023 lin-i/o slave [1] undefined. [1] all diagnosis flags in byte d4 are reset after data access from master. table 23. fourth i/o diagnostic data block response frame bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 nad7 nad6 nad5 nad4 nad3 nad2 nad1 nad0 nad d10000010004 d211110100f4 d311000000c0 d4 p rxb cs txb u [1] nvm lhe err 00 d5 pl7 pl6 pl5 pl4 pl3 pl2 pl1 pl0 00 d611111111ff d711111111ff table 24. fourth i/o diagnostic data block response frame bit description byte bit symbol description d0 7 to 0 nad[7:0] slave node address (nad). nad values are in the range from 1 to 127, while 0 and 128 to 255 are reserved for other purposes. the slave node address is assigned with the assign nad command (see table 5 ). d1 7 to 0 pci[7:0] protocol control information. d2 7 to 0 rsid[7:0] response service identifier. d3 7 and 6 - 11 for the fourth configuration data block. 5 to 0 - not used. d4 [1] 7 p parity error. set if identifier parity bits are erroneous. 6 rxb receive error. set if start or stop bits are erroneous during reception. 5 cs checksum error. set if checksum is erroneous. 4 txb transmit error. set if start, data or stop bits are erroneous during transmission. 3 undefined - 2 nvm no valid message. set if there is bus activity, but no valid message frame for longer than t to(idle) . 1 lhe set if limp home mode is entered. 0 err response error. sets internal signal response_error if there is an rxb, cs or txb during a response frame. d5 7 to 0 pl[7:0] pxout latch value. d6 and d7 7 to 0 - not used. uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 22 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.1.6 configuration examples example 1, uja1023 configurat ion with eight low-side outputs. // //example 8 lse and walking ?1? pattern //c1, c2 and c3 are gnd //sb = syncbreak; sf = syncfield // sb sf 3c 60 06 b1 11 00 00 00 04 d2 // assign frameid, default nad used and // id(pxreq) = 04,id(pxresp) = 05 sb sf 7d 60 01 f1 ff ff ff ff ff ac // positive response sb sf 3c 60 06 b4 00 00 ff 00 00 e4 // datadump1, 8 lse sb sf 7d 60 06 f4 00 00 ff 00 00 a4 // read back configuration sent sb sf 3c 60 06 b4 40 00 00 00 00 a4 // datadump2, no capture and // threshold select (optional) sb sf 7d 60 06 f4 40 00 00 00 00 64 // read back configuration sent sb sf 3c 60 04 b4 80 55 10 ff ff 01 // data dump3, lh value = 0x55, default pwm = 0x10 (optional) sb sf 7d 60 04 f4 80 55 10 ff ff c0 // read back configuration sent sb sf 3c 60 06 b2 00 11 00 00 00 d5 // read by identifier request (optional) sb sf 7d 60 06 f2 11 00 00 00 02 93 // positive response sb sf c4 01 80 7e // io configuration enabled and low-side // switch p0 on sb sf c4 02 80 7d // low-sideswitch p1 on sb sf c4 04 80 7b // low-sideswitch p2 on sb sf c4 08 80 77 // low-sideswitch p3 on sb sf c4 10 80 6f // low-sideswitch p4 on sb sf c4 20 80 5f // low-sideswitch p5 on sb sf c4 40 80 3f // low-sideswitch p6 on sb sf c4 80 80 fe // low-sideswitch p7 on uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 23 of 49 nxp semiconductors uja1023 lin-i/o slave example 2, uja1023 configuration with eight inputs and edge capture. // //example 8 inputs with capture //c1, c2 and c3 are gnd //sb = syncbreak; sf = syncfield // sb sf 3c 60 06 b1 11 00 00 00 04 d2 // assign frameid, default nad used and // id(pxreq) = 04,id(pxresp) = 05 sb sf 7d 60 01 f1 ff ff ff ff ff ac // positive response sb sf 3c 60 06 b4 00 00 00 00 00 e4 // datadump1, all outputs disabled (optional) sb sf 7d 60 06 f4 00 00 00 00 00 a4 // read back configuration sent sb sf 3c 60 06 b4 40 ff ff 00 ff a4 // datadump2, all both edge capture and // inputs as wake-up sb sf 7d 60 06 f4 40 ff ff 00 ff 64 // read back configuration sent sb sf 3c 60 04 b4 80 55 10 ff ff 01 // data dump3, lh value = 0x55, default pwm = 0x10 (optional) sb sf 7d 60 04 f4 80 55 10 ff ff c0 // read back configuration sent sb sf 3c 60 06 b2 00 11 00 00 00 d5 // read by identifier request (optional) sb sf 7d 60 06 f2 11 00 00 00 02 93 // positive response sb sf 85 00 00 ff // io configuration enabled and read inputs sb sf 80 // dummy message sb sf 80 // dummy message and input 0 changes sb sf 85 01 01 fd // input 0 set and edge detected sb sf 80 // sb sf 85 01 00 fe // input 0 still set uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 24 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.2 operating modes hse = high-side enable lse = low-side enable pxo = pxout lslp = limp-home sleep lwm = local wake-up mask failure: bus idle time-out or bus dominant time-out local: [(lwm = 1) and (t > t wake(local) ; after edge capture) causes transmission of lin wake-up request] and [reception of lin header] remote: [(t > t wake(bus) ; after falling edge) and recessive again] and [reception of lin header]. fig 6. overview of operating modes normal active mode hse: as configured lse: as configured pxo: output data inh: as configured lin: active lh sleep low-power mode hse: as configured lse: as configured pxo: limp home value inh: high impedance lin: off-line sleep low-power mode hse: as configured lse: as configured pxo: output data inh: high impedance lin: off-line standby active mode hse: as configured lse: as configured pxo: limp home value inh: as configured lin: active limp home low-power mode hse: as configured lse: as configured pxo: limp home value inh: high impedance lin: off-line/failsilent configuration active mode hse, lse: 0x00 pxo: 0x00 inh: high lin: active mdb494 failure "assign nad" or default nad used power-on or undervoltage failure or sleep mode command (nad assigned or default used) and remote wake-up failure or sleep mode command read diagnose data p o limp home value oscillator fail remote wake-up p o limp home value remote wake-up or local wake-up sleep mode command and lslp = 1 sleep mode command and lslp = 0 (nad not assigned or not used) and remote wake-up nad reconfiguration hse, lse: 0 00 p o: 0 00 i/o reconfiguration or local wake-up uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 25 of 49 nxp semiconductors uja1023 lin-i/o slave 7.2.2.1 configuration mode the configuration mode can be seen as in itial state after power-on or undervoltage detection. the uja1023 configuration valu es are in the default settings. the i/o pins p0 to p7 (px) are set to high-impedance behavior and the inh is in its external regulator mode, which outputs a high-level in order to switch on an external voltage regulator. in configuration mode the uja1023 is not co nfigured and it has no valid identifier and, depending on the configuration pins, a default nad. thus, with the exception of the masterreq command, all lin slave commands are disabled. once the uja1023 nad is assigned, via the assign nad request, or the default nad is used for the first time, the normal mode is entered. if a lin bus failure is present (bus idle time-out or bus dominant time-out) or the sleep command has been received, the uja1023 enters its low-power (limp home) mode. 7.2.2.2 normal mode in normal mode the uja1023 receives and/or transmits input/output data as well as configuration data. a uja1023 in configuration mode enters the normal mode only afte r its nad assignment or the first usage of the default nad. afte r a nad reconfiguration, all ports that are configured in output mode will be set to high-impedance. coming from sleep mode or limp home sleep mode the normal mode can be entered via local or remote wake-up. the output register of each i/o pin p0 to p7 (pxout) keeps its values of the sleep mode or limp home sleep mode. if the inh is in external regulator mode, it outputs a high-level to switch on an external voltage regulator. for a mode transition from standby mode to normal mode the diagnostic data must be read via a slaveresp. with this request th e master acknowledges the previous failure. the pxout registers keep their limp home values. 7.2.2.3 sleep mode the uja1023 enters its sleep mode when the ?sleep mode command? has been received and the limp home sleep bit lslp is reset (l slp = 0). in sleep mode the uja1023 keeps the current status on its px. the inh will switch to high-impedance state. after a local wake-up event the uja1023 send s a ?wake-up signal? to wake up the master. in sleep mode the pwm and a dc are reset. the first lin me ssage will be lost due to waking up the uja1023. 7.2.2.4 limp home sleep mode some applications may need dedicated high and/or low output levels during sleep mode in order to achieve the lowest power dissipation of the application. therefore the uja1023 provides the limp home sleep mode (lh sleep mode). by enabling the lslp bit, the lh sleep mode output behavior can be configured. the lh sleep mode is enabled if the configuration bit lslp (d3.5) is set (lslp = 1, see ta b l e 1 8 ). after a local wake-up event the uja1023 send s a ?wake-up signal? to wake up the master. in the lh sleep mode the output registers (pxout) of the uja1023 are loaded with the limp home value. after a wake-up event (local or remote wake-up) the pxout keep their limp home value. uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 26 of 49 nxp semiconductors uja1023 lin-i/o slave in lh sleep mode the pwm and adc are reset. the first lin message will be lost due to waking up the uja1023. 7.2.2.5 limp home mode and standby mode limp home mode and standby mode differ in th e output of pin inh if the inh is configured in external regulator mode. where in limp home mode pin inh is high-impedance and in standby mode pin inh is high. in contrast to the standby mode the limp home mode is a low-power mode. the limp home value specifies the pxout values in case lin bus communication fails. the px configuration push-pull, open-drain or high-impedance keeps unchanged in limp home mode. the limp home mode will be entered from normal mode if the lin bus is short-circuited to ground for a time exceeding the bus dominant time-out (t to(dom) ) or if the bus idle time-out (t to(idle) ) expires. coming from limp home mode the standby mode is entered after remote wake-up if the uja1023 is configured. in case the uja1023 is not configured, it enters the configuration mode after remote wake-up. in standby and configuration mode the uja1023 enters the limp home mode again if the configuration fails or if the ?sleep mode command? has been received. 7.2.3 i/o pin modes 7.2.3.1 input inputs can always be read via a pxresp frame (see section 7.2.5 ). the input threshold is determined by the th bits in the second i/o configuration block (see table 17 ). 7.2.3.2 level mode in level mode the pxout register of the uja1023 can be set or reset. depending on the px configuration the pxout value is output. 7.2.3.3 pwm mode the pwm mode provides a pwm signal with 8-bit resolution to the i/o-stage. the base frequency is typically 700 khz divided by 256 (8-bit) and becomes approximately 2.7 khz. the mode is entered via both mode configur ation bits om0 and om1. the pwm signal is common for all assigned outputs. in the low-power modes (sleep mode, lh sleep mode and limp home mode) the pwm value is reset (pwm = 0x00) and the previous pwm value is lost. 7.2.3.4 cyclic sense mode the cyclic sense mode is used to supply and read back external switches. in this mode the px pin is configured as a switched supply to reduce the power consumption. it is primarily intended to su pply wake-up switches. a px pin in cyclic sense mode has to be configured with the high-side enable register (hse) in high-state and the low-side enable register (lse) in low-state. the pxout flip-flop is being cyclically switched (see figure 7 ). uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 27 of 49 nxp semiconductors uja1023 lin-i/o slave the cyclic sense mode can be configured vi a the output mode bits om0 and om1 in the configuration data bytes (see ta b l e 1 6 ). in case threshold th2 is selected then threshold th3 will be used instead. this feature is used for diagnosis purposes to check the presence of a switch with an integrated parallel resistor (typical value is 2800 1 %). the switch can be detected by selecting first th1 and then th2. all px pins in cyclic sense mode are sampled simultaneously. the cyclic sense mode timing is specified in section 11 . no wake-up will occur when the local wake-up mask is set and sleep mode is entered when the px pin is low. a wake-up will be issued when in sleep mode and the px input level changes. 7.2.3.5 switch matrix mode figure 8 shows an application example of a 4 4 switch matrix wit h the uja1023. the drive capability of the i/o-pins px supports the use of a 4 4 switch matrix without extra components. the i/o pins from p0 to p3 provide a weak but sufficient pull-up for switch applications and the pins from p4 to p7 are used as strong pull-down in case a switch is pushed. the switch matrix mode can be enabled for the i/o-pins px via data byte d3 of the second configuration data block (see ta b l e 1 8 ). the data bits sm0 and sm1 configure p0 to p3 as an input with a weak but sufficient pull-up for switch applications and p4 to p7 as strong pull-down in order to detect an activated switch (see table 18 ). in normal mode when a valid sync break and sy nc field is received, automatically a matrix scan starts: ? immediately if the sl ave is not addressed ? when addressed, after the lin message is handled fig 7. cyclic sense mode mdb495 t sample t on t cy pxout v px external switch at px capture active edge capture open close uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 28 of 49 nxp semiconductors uja1023 lin-i/o slave this means that the scan matrix value is determined directly after the previous lin message. in case two or more switches are closed simultaneously, extra diodes have to be added to prevent the ?short-circuit? of neighbor switches. for the switch matrix inputs a ?quasi? capture mode can be configured via the data bit smc (d3.3) of the second configuration block. if a matrix switch input value has been changed the changed value is captured until the master reads the switch matrix value via the uja1023 command pxresp. note that two readings are necessary for proper initialization. a switch matrix can be configured as local wake-up. if the data bit smw (d3.2) of the second configuration block is set to logic 1, a change of a matrix switch input value causes a wake-up of the uja1023. if in add ition the switch matrix capture mode is enabled via smc the switch matrix value of pxresp represents the local wake-u p source switch of the switch matrix. 7.2.3.6 adc mode the principle of the bit stream adc is shown in figure 9 . only three external components are needed per analog input, which should be dimensioned as: r i =r1=100k ; c1 = 10 nf. all eight inputs can be used as an alog input, one at a time. adc values are referenced to v vio . a register/counter is used to count the ratio of high and low phases of the bit stream. this ratio represents the analog voltage v a . the upper counter is used to define the measurement period, typically 1.5 ms. fig 8. switch matrix principle mdb49 6 p0 v th1 r on(hs) 1 k p1 sm40 sm41 sm72 sm73 v th1 r on(hs) 1 k p2 v th1 r on(hs) 1 k p3 p4 p5 p6 p7 v th1 r on(hs) 1 k r on(ls) 50 r on(ls) 50 r on(ls) 50 r on(ls) 50 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 29 of 49 nxp semiconductors uja1023 lin-i/o slave the inverted bit stream of the adc comparator generates the quasi-analog output voltage on pin inh, which can be used to control the analog voltage v a via a low-pass filter. an analog-to-digital conver sion will have following steps: 1. select an input channel via pxreq, see section 7.2.5 . not needed in case a fixed adc-input is selected (see table 16 for rxdl = 0 and adcin[2:0]). 2. the internal multiplexe r switches over to the selected input; note that some time is needed to stabilize the loop, due to the rc network time constant. 3. in case a valid sync break and sync field is received, an analog-to-digital conversion starts. the data is available in the next lin message, implying the adc value is sampled during the previous lin message. to reduce current consumption, the 0.5v vio reference voltage is turned off in the low-power modes. 7.2.4 inh pin mode the external regulator mode, im0 = im1 = 0 (see ta b l e 1 6 ), can be used to control an external voltage regulator. in configuration mode, normal mode and standby mode the inh outputs a high level, and in the low-power modes (sleep, lh sleep and limp home) the inh pin becomes high-impedance. switching between the inh modes ?external r egulator? and ?switch open? the inh pin can be used as high-side switch. in adc mode the inh pin is configured interna lly as follows: the high-side switch is put in high-impedance state and a special symmetrical push-pull output is activated. next, the adc mode enables an adc control loop. the output level of the push-pull stage is defined via the v vio voltage. 7.2.5 lin-i/o message frames the uja1023 uses one lin command to receive data pxreq and one to transmit data pxresp respectively. the ids for pxreq and pxresp are configured by means of the ?assign frame id? command as described in section 7.2.1.3 . please note that the i/o conf iguration will be enabled during t he first usage of the pxresp or pxreq. the pxreq and pxresp data bytes are described in table 25 to ta b l e 2 8 . uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 30 of 49 nxp semiconductors uja1023 lin-i/o slave [1] the uja1023 expects to receive data byte d2 only if bit rxdl = 1 (bit 3 of byte d3 in the first i/o configuration data block, see table 15 and table 16 ). [1] the uja1023 expects to receive data byte d2 only if bit rxdl = 1 (bit 3 of byte d3 in the first i/o configuration data block, see table 15 and table 16 ). fig 9. analog-to-digital converter table 25. pxreq frame bit allocation data byte 7 6 5 4 3 2 1 0 default value (hex) d0 p7 p6 p5 p4 p3 p2 p1 p0 00 d1 pwm7 pwm6 pwm5 pwm4 pwm3 pwm2 pwm1 pwm0 00 d2 [1] - - - - - adcin2 adcin1 adcin0 00 table 26. pxreq frame bit description byte bit symbol description d0 7 to 0 p[7:0] px output value. the px output value is ignored if px is configured in cyclic sense or pwm mode. d1 7 to 0 pwm[7:0] pwm value. d2 [1] 7 to 3 - not used. 2 to 0 adcin[2:0] adc analog source chan nel selection. for example, 000 selects input 0, 001 selects input 1 and 111 selects input 7. the adc input source is observed only if the inh output is in adc mode. mdb49 7 ff counter t filter register/counter oscillator up/down oscillator c1 10 nf r i 100 k v a r1 100 k mux adc mode adc period v vio 0.5v vio inh px uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 31 of 49 nxp semiconductors uja1023 lin-i/o slave [1] data bytes d2 and d3 are transmitted only if bit txdl = 1 (bit 4 of byte d3 in the second i/o configuration data block, see table 17 and table 18 ). table 27. pxresp frame bit allocation data byte 7 6 5 4 3 2 1 0 d0 p7 p6 p5 p4 p3 p2 p1 p0 d1 ec7ec6ec5ec4ec3ec2ec1ec0 sm53 sm52 sm51 sm50 sm43 sm42 sm41 sm40 d2 pxl7 pxl6 pxl5 pxl4 pxl3 pxl2 pxl1 pxl0 sm73 sm72 sm71 sm70 sm63 sm62 sm61 sm60 d3 pwm7 pwm6 pwm5 pwm4 pwm3 pwm2 pwm1 pwm0 adc7 adc6 adc5 adc4 adc3 adc2 adc1 adc0 table 28. pxresp frame bit allocation byte bit symbol description d0 7 to 0 p[7:0] px input value. bytes d1 and d2 if switch matr ix is not configured (default) [1] d1 7 to 0 ec[7:0] edge capture value. d2 7 to 0 pxl[7:0] pxout latch value. bytes d1 and d2 if swit ch matrix is configured [1] d1 7 to 0 smxx switch matrix value 0. refer to figure 8 . d2 7 to 0 smxx switch matrix value 1. byte d3 [1] d3 7 to 0 pwm[7:0] pwm value. 7 to 0 adc[7:0] adc value. the adc value is transmitted only if the inh output is in adc mode (im0 = 1, im1 = 0). uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 32 of 49 nxp semiconductors uja1023 lin-i/o slave 7.3 i/o block 7.3.1 i/o pins p0 to p7 the i/o-pin structure of the uja1023 is shown in figure 10 . the output is configurable as: ? push-pull ? high-side switch ? low-side switch ? high-impedance the input can be configured: ? to capture on falling, rising or both edges ? to provide an internal pull-up ? with respect to the required threshold v th1 , v th2 or v th3 ? as analog multiplexer for the adc fig 10. i/o-pin structure mdb498 2 0 1 2 3 ff px t filter r on(hs) r on(ls) ff ff ff ff s0 s1 y 0 1 2 3 s0 s1 y v th3 v th2 v th1 pxout low-side enable high-side enable cyclic mode input threshold edge capture rise/fall/both pxin to analog multiplexer vio vio uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 33 of 49 nxp semiconductors uja1023 lin-i/o slave [1] x = don?t care. [2] the r on values of the high-side and the lo w-side switches can be found in section 10 . the r on(hs) value is chosen to provide enough pull-up current for switches ; thus no external pull-up resistor is needed. the r on(ls) of the low-side driver is much smaller than the r on(hs) of the high-side driver, which enables the low side driver to drive leds. [3] refer to table 17 where threshold th3 is defined in cyclic sense mode in case threshold th2 is selected. this feature is used for diagnosis pu rposes to check the presence of a switch with integrated parallel resistor (a useful resistor value is 3000 1 %). 7.3.2 inh pin the inhibit pin inh can be configured in three operation modes: adc mode, switch open mode and external regulator mode (see section 7.2.4 and figure 11 ). after power-on the inh is in external regulator mode (high-side switch is on). table 29. i/o pin operation [1] [2] operation high-side enable low-side enable pxout input threshold edge capture power-on condition (high-impedance) 0000none high-impedance 0 0 x x x low-side open-state 0 1 0 x x low-side close-state 0 1 1 x x high-side open-state (cyclic sense mode: off-state) 100xx high-side close-state (cyclic sense mode: on-state) 101x [3] x push-pull high-state 1 1 1 x x push-pull low-state 1 1 0 x x input with pull-up 1 0 1 x x input at threshold v th1 (typically 3 v) xxx0 x input at threshold v th2 (typically 1.5 v) xxx1 x capture edge at falling and rising edge xxxxboth capture edge at falling edge x x x x fall capture edge at rising edge x x x x rise uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 34 of 49 nxp semiconductors uja1023 lin-i/o slave 7.4 configuration pins c1 to c3 the structure of the configuration pins c1 to c3 (cx) is shown in figure 12 . each pin has a pull-up to the battery. the pull-up is switched on during node address configuration only. in all other cases the cx have high-impedance behavior. in order to have a safety margin against ground shift the input threshold of the configuration pins is about 0.5 v bat . in addition the configuration pin c3 has a low-side driver to provide the output signal during daisy chain id configuration. 7.5 lin transceiver the integrated lin tr ansceiver of the uja1 023 is compliant with lin 2.0 / sae j2602 and provides: ? integrated 30 k termination resistor ? internal lin-termination switch (rtlin) ? disabling of termination switch duri ng a short-circuit from lin to gnd fig 11. inh structure mdb49 9 & & & r on(inh2) r on(inh2) r on(inh1) ff inh ff vio output bat adc mode fig 12. configuration pin structure 001aad49 2 v bat cx configuration on/off cx input cx output 0.5v bat uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 35 of 49 nxp semiconductors uja1023 lin-i/o slave figure 13 shows the states of the complete lin transceiver including rtlin for lin termination. the first mode after power-on is the off-line mode. the transmitter and receiver are both switched off, but wake-up events will be re cognized. any lin wake-up event will wake-up the uja1023. within sleep mode any wake-up event is automatically forwarded to the lin (protocol) controller, the normal mode will be entered and the lin-tran sceiver automatically enters the active mode. it should be noted that th e first message (wake-up message) will be lost when no wake-up signal has been received before. the differences between active, off-line and fail silent mode are: ? in off-line and fail silent mode the transm itter is off, whereas in active mode the transmitter is enabled ? during active state with no short-circuit be tween lin and gnd the internal termination switch rtlin provides an internal 30 k pull-up resistor to v bat . in case the lin wire is shorted to gnd for longer than t to(dom) , the rtlin switch switches off in order to make sure that no current is discharging the battery unintentio nally and fail silent mode will be entered ? after failure recovery (in fa il silent) when the lin bus is recessive again the off-line mode is entered and activates a weak termination of 75 a tx = transmitter. rx = receiver. lprx = low-power receiver. rtlin = lin termination. fig 13. lin transceiver states mce65 2 off-line tx: off rx: off lprx: on rtlin: 75 a fail silent tx: off rx: off lprx: on rtlin: off active tx: on rx: on lprx: on rtlin: 30 k power-on or undervoltage t to(idle) or sleep or lh sleep t to(dom) t to(rec) remote wake-up or local wake-up local wake-up t to(dom) uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 36 of 49 nxp semiconductors uja1023 lin-i/o slave ? entering active mode out of off-line mode results always in switch ing on the internal 30 k pull-up resistor to battery 7.6 on-chip oscillator the on-chip oscillator is the time reference for all timers in th e lin controller, auto bit rate detector, adc and lin transceiver. a too-low frequency of the on-chip oscillator or a not-ru nning on-chip o scillator results immediately in limp home operating mode. 8. limiting values [1] junction temperature in accordance with iec60747-1. an alternative definition of t vj =t amb +p r th(j-a) , where r th(j-a) is a fixed value to be used for calculating t vj . the rating for t vj limits the allowable combinations of power dissipation (p) and ambient temperature (t amb ). 9. thermal characteristics table 30. limiting values in accordance with the absolute maximum rating syst em (iec 60134). all voltages are referenced to gnd. symbol parameter conditions min max unit v bat supply voltage on pin bat ? 0.3 +40 v v vio supply voltage on pin vio ? 0.3 v bat +0.3 v v lin voltage on pin lin dc value ? 27 +40 v v inh voltage on pin inh dc value ? 0.3 v bat +0.3 v v cx voltage on pins c1 to c3 dc value ? 27 +40 v v px voltage on pins p0 to p7 dc value ? 0.3 v vio +0.3 v i px current on pins p0 to p7 dc value; v px >v vio +0.3v; v px < ? 0.3 v ? 15 +15 ma v trt(lin) transient voltages on pin lin iso 7637 ? 150 +100 v t vj virtual junction temperature [1] ? 40 +150 c t stg storage temperature ? 55 +150 c v esd electrostatic discharge voltage pins bat, lin, c1, c2 and c3 human body model; c = 100 pf; r = 1.5 k ? 8+8 kv corner pins charged device model ? 750 +750 v other pins human body model; c = 100 pf; r = 1.5 k ? 2+2 kv charged device model ? 500 +500 v table 31. thermal characteristics symbol parameter conditions typ unit r th(j-a) thermal resistance from junction to ambient in free air 106 k/w uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 37 of 49 nxp semiconductors uja1023 lin-i/o slave 10. static characteristics table 32. static characteristics v bat =5.5vto27v [1] ; v vio = 3 v to 27 v; t vj = ? 40 cto+150 c; r l(lin-bat) =500 ; all voltages are referenced to gnd; positive current flows into th e ic; unless otherwise specified. [2] symbol parameter conditions min typ max unit supply: pin bat v bat supply voltage on pin bat all operating modes [1] 5.5 - 27 v i bat supply current on pin bat lh sleep, sleep and limp home mode v bat = 5.5 v to 8.1 v [3] -75100 a v bat = 8.1 v to 27 v [3] -4565 a normal mode; lin receiving recessive v bat = 12 v [4] -0.71.4ma v bat = 27 v [4] -1.02.0ma normal mode; lin receiving dominant v bat = 12 v [4] -1.12.2ma v bat = 27 v [4] -1.73.4ma normal mode; lin sending dominant v bat = 12 v [4] -2.24.4ma v bat = 27 v [4] -3.67.5ma additional current if all high- and low-side switches are activated - 1040 1280 a v bat(pf) v bat power fail detection voltage [5] 4.45 - 5.0 v i/o reference (px operating range): pin vio v vio supply voltage on pin vio 3 - v bat +0.3 v i vio supply current on pin vio lh sleep, sleep and limp home mode; no load at px high-side switches disabled [6] -1.65.0 a high-side switches enabled and active [6] - 230 280 a normal mode; adc enabled; no load at px and inh; high-side switches enabled [6] - 520 1000 a configuration: pins c1, c2 and c3 v ih high-level input voltage 0.6 v bat -v bat +0.3 v v il low-level input voltage ? 0.3 - 0.4 v bat v ? i l ? leakage current configuration pins disabled - - 5 a r pu internal pull-up resistor configuration pins enabled 5 11 25 k uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 38 of 49 nxp semiconductors uja1023 lin-i/o slave v ol(c3) low-level output voltage on pin c3 external r pu =5k to pin bat; c3 enabled - - 0.25 v bat v external r pu =5k to pin bat; c3 enabled; v bat = 6.5 v to 27 v --0.2 v bat v i sc(c3) short-circuit current on pin c3 c3 = v bat ; c3 enabled - - 50 ma i/o: pins p0 to p7 v ih(th1) high-level input voltage v th1 v vio 3.7 v 3.7 - v vio +0.3 v v il(th1) low-level input voltage v th1 v vio 3.7 v ? 0.3 - +2.1 v v ih(th2) high-level input voltage v th2 2.0 - v vio +0.3 v v il(th2) low-level input voltage v th2 ? 0.3 - +0.8 v v ih(th3) high-level input voltage v th3 v vio 10 v v vio ? 0.8 - v vio +0.3 v v il(th3) low-level input voltage v th3 v vio 10 v ? 0.3 - v vio ? 2.5 v ? i l ? leakage current v i =v vio or gnd - - 10 a r on(hs) high-side on-state resistance v px =v vio ? 1v; per switch 550 1200 3000 i sc(hs) high-side short-circuit current v px =0v [7] ? 3.1 ? 2.0 ? 0.8 ma r on(ls) low-side on-state resistance v px = 1 v; per switch 25 50 83 i sc(ls) low-side short-circuit current v px =v vio [7] 10 23 40 ma special function: pin inh v bat-inh voltage drop inh mode; i inh = ? 1ma - 1.2 1.8 v ? i l ? leakage current v inh =0v - - 5 a bus line: pin lin v o(dom) lin dominant output voltage 7.0 v < v bat <18v 0 - 0.2 v bat v i l(h) high-level leakage current 7.0 v < v bat <18v; v lin =v bat ? 10 - +10 a i l(l) low-level leakage current fail silent mode; v lin =0v; t>t to(dom) ? 100+10 a i pu lin pull-up current off-line mode; v lin =0v; t uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 40 of 49 nxp semiconductors uja1023 lin-i/o slave [1] all parameters are guaranteed over the virtual junction te mperature range by design. products are 100 % tested at 125 c ambient temperature on wafer level (pre-testing). cased products are 100 % tested at 25 c ambient temperature (final testing). both pre-testing and final testing use correlated test conditions to cover the specified temperature and power supply voltage ranges. [2] guaranteed by design. [3] analog-to-digital conversion starts when valid sync break and sync field is received. [4] t bit = selected bit time 50 s or 96 s (20 kbit/s or 10.4 kbit/s), depends on lsc bit; bu s load conditions are (c parallel to r): c bus =1nf and r bus =1k , c bus = 6.8 nf and r bus = 660 or c bus = 10 nf and r bus = 500 . [5] [6] [7] rxd is an internal signal. [8] not tested. t p(rx)(sym) symmetry of receiver propagation delay rising edge with respect to falling edge [7] ? 2- +2 s lin protocol controller t to(idle) bus idle time-out [2] 4.1 - 18.0 s t to(dom) bus dominant time-out [2] 32 - 270 ms t to(rec) bus recessive time-out [2] 15 - 65 s t wake(bus) network wake-up signal time after local wake-up, sent by slave [2] 0.25 - 5 ms t wake(local) bus wake-up dominant time sleep mode, sent by master [2] 30 100 150 s automatic bit rate detection t det(syncbrk) sync break detection threshold [4] -10 t bit - s f tol(sync) total tolerance slave synchronized complete message - - 2 % cyclic function; see figure 7 t cy cycle period [2] -16-ms t on(pxout) pxout pin turned on [2] -350- s t sample(pxin) pxin sample time [2] -262- s adc function e adc total adc error r = 100 k ; c = 10 nf v vio = 6.5 v to 12 v; v bat =6.5vto12v [8] --4lsb v vio =3vto27v; v bat =6.5vto27v [8] --6lsb table 33. dynamic characteristics ?continued v bat =5.5vto27v; v vio = 3 v to 27 v; t vj = ? 40 c to +150 c; r l(lin-bat) =500 ; all voltages are referenced to gnd; unless otherwise specified. [1] symbol parameter conditions min typ max unit 1 3 , t bus rec () min () 2t bit ------------------------------- = 2 4 , t bus rec () max () 2t bit -------------------------------- = uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 41 of 49 nxp semiconductors uja1023 lin-i/o slave fig 14. timing diagram lin transceiver 001aae375 v txdl lin bus signal receiving node 1 receiving node 2 v bat v rxdl1 v rxdl2 t bit t bus(dom)(max) t bus(rec)(min) v th(rec)(max) thresholds of receiving node 1 v th(dom)(max) v th(rec)(min) v th(dom)(min) t bus(dom)(min) t p(rx1)r t p(rx1)f t p(rx2)r t p(rx2)f t bus(rec)(max) t bit t bit thresholds of receiving node 2 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 42 of 49 nxp semiconductors uja1023 lin-i/o slave 12. application information 13. test information immunity against automotive transients (mal function and damage) in accordance with lin emc test specification / vers ion 1.0; august 1, 2004. 13.1 quality information this product has been qualified to the appropriate automotive electronics council (aec) standard q100 or q101 and is suitable for use in automotive applications. fig 15. application diagram 001aad68 7 lin master node ecu lin slave node ecu switch background illumination 4 3 switch matrix bat42 bat14 rtlin lin gnd gnd c1 c2 c3 p2 p3 p1 p0 p6 p7 p5 p4 inh vio bat lin v dd v bat lin bus rstn intn rxd txd v1 spi interface spi interface microcontroller rstn intn fail-safe sbc uja106x lin i/o slave uja1023 rxdl txdl r master c lin c lin c bat c bat uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 43 of 49 nxp semiconductors uja1023 lin-i/o slave 14. package outline fig 16. package outline sot109-1 (so16) x w m a a 1 a 2 b p d h e l p q detail x e z e c l v m a (a ) 3 a 8 9 1 16 y pin 1 index unit a max. a 1 a 2 a 3 b p cd (1) e (1) (1) eh e ll p qz y w v references outline version european projection issue date iec jedec jeita mm inches 1.75 0.25 0.10 1.45 1.25 0.25 0.49 0.36 0.25 0.19 10.0 9.8 4.0 3.8 1.27 6.2 5.8 0.7 0.6 0.7 0.3 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 (0.006 inch) maximum per side are not included. 1.0 0.4 sot109-1 99-12-27 03-02-19 076e07 ms-012 0.069 0.010 0.004 0.057 0.049 0.01 0.019 0.014 0.0100 0.0075 0.39 0.38 0.16 0.15 0.05 1.05 0.041 0.244 0.228 0.028 0.020 0.028 0.012 0.01 0.25 0.01 0.004 0.039 0.016 0 2.5 5 mm scale s o16: plastic small outline package; 16 leads; body width 3.9 mm sot109 -1 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 44 of 49 nxp semiconductors uja1023 lin-i/o slave 15. soldering of smd packages this text provides a very brief insight into a complex technology. a more in-depth account of soldering ics can be found in application note an10365 ?surface mount reflow soldering description? . 15.1 introduction to soldering soldering is one of the most common methods through which packages are attached to printed circuit boards (pcbs), to form electr ical circuits. the soldered joint provides both the mechanical and the electrical connection. th ere is no single sold ering method that is ideal for all ic packages. wave soldering is often preferred when through-hole and surface mount devices (smds) are mixed on one printed wiring board; however, it is not suitable for fine pitch smds. reflow soldering is ideal for the small pitches and high densities that come with increased miniaturization. 15.2 wave and reflow soldering wave soldering is a joining technology in which the joints are made by solder coming from a standing wave of liquid solder. the wave soldering process is suitable for the following: ? through-hole components ? leaded or leadless smds, which are glued to the surface of the printed circuit board not all smds can be wave soldered. packages with solder balls, and some leadless packages which have solder lands underneath the body, cannot be wave soldered. also, leaded smds with leads having a pitch smaller than ~0.6 mm cannot be wave soldered, due to an increased pr obability of bridging. the reflow soldering process involves applying solder paste to a board, followed by component placement and exposure to a temperature profile. leaded packages, packages with solder balls, and leadless packages are all reflow solderable. key characteristics in both wave and reflow soldering are: ? board specifications, in cluding the board finish , solder masks and vias ? package footprints, including solder thieves and orientation ? the moisture sensitivit y level of the packages ? package placement ? inspection and repair ? lead-free soldering versus snpb soldering 15.3 wave soldering key characteristics in wave soldering are: ? process issues, such as application of adhe sive and flux, clinching of leads, board transport, the solder wave parameters, and the time during which components are exposed to the wave ? solder bath specifications, including temperature and impurities uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 45 of 49 nxp semiconductors uja1023 lin-i/o slave 15.4 reflow soldering key characteristics in reflow soldering are: ? lead-free versus snpb solderi ng; note that a lead-free reflow process usually leads to higher minimum peak temperatures (see figure 17 ) than a snpb process, thus reducing the process window ? solder paste printing issues including smearing, release, and adjusting the process window for a mix of large and small components on one board ? reflow temperature profile; this profile includ es preheat, reflow (in which the board is heated to the peak temperature) and coolin g down. it is imperative that the peak temperature is high enough for the solder to make reliable solder joints (a solder paste characteristic). in addition, the peak temperature must be low enough that the packages and/or boards are not damaged. the peak temperature of the package depends on package thickness and volume and is classified in accordance with ta b l e 3 4 and 35 moisture sensitivity precautions, as indicat ed on the packing, must be respected at all times. studies have shown that small packages reach higher temperatures during reflow soldering, see figure 17 . table 34. snpb eutectic process (from j-std-020c) package thickness (mm) package reflow temperature ( c) volume (mm 3 ) < 350 350 < 2.5 235 220 2.5 220 220 table 35. lead-free process (from j-std-020c) package thickness (mm) package reflow temperature ( c) volume (mm 3 ) < 350 350 to 2000 > 2000 < 1.6 260 260 260 1.6 to 2.5 260 250 245 > 2.5 250 245 245 uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 46 of 49 nxp semiconductors uja1023 lin-i/o slave for further information on temperature profiles, refer to application note an10365 ?surface mount reflow soldering description? . 16. revision history msl: moisture sensitivity level fig 17. temperature profiles for large and small components 001aac84 4 temperature time minimum peak temperature = minimum soldering temperature maximum peak temperature = msl limit, damage level peak temperature table 36. revision history document id release date data sheet status change notice supersedes uja1023 v.5 20100817 product data sheet - uja1023 v.4 modifications: ? the format of this data sheet has been redesigned to comply with the new identity guidelines of nxp semiconductors. ? legal texts have been adapted to the new company name where appropriate. ? v bat (min) value changed to 5.5 v ( ta b l e 1 , ta b l e 3 2 and table 33 ). ? table 32 ? static characteristics ? : updated: ? condition/value added for v ol(c3) ? table note 1 added ? table 33 ? dynamic characteristics ? : updated: ? 1, 2, 3 and 4: conditions changed (lsc = 0 deleted) and conditions/values added ? table 2 ? ordering information ? updated to indicate that two versions are now available: ? UJA1023T/2r04/c with v bat = 5.5 v to 27 v ? UJA1023T/2r04 with v bat = 6.5 v to 27 v uja1023 v.4 20060705 product data sheet - uja1023 v.3 uja1023 v.3 20060209 preliminary data sheet - uja1023 v.2 uja1023 v.2 (9397 750 12022) 20050203 objective specification - - uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 47 of 49 nxp semiconductors uja1023 lin-i/o slave 17. legal information 17.1 data sheet status [1] please consult the most recently issued document before initiating or completing a design. [2] the term ?short data sheet? is explained in section ?definitions?. [3] the product status of device(s) described in this document may have changed since this document was published and may differ in case of multiple device s. the latest product status information is available on the internet at url http://www.nxp.com . 17.2 definitions draft ? the document is a draft versi on only. the content is still under internal review and subject to formal approval, which may result in modifications or additions. nxp semiconductors does not give any representations or warranties as to the accuracy or completeness of information included herein and shall hav e no liability for the consequences of use of such information. short data sheet ? a short data sheet is an extract from a full data sheet with the same product type number(s) and title. a short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. for detailed and full information see the relevant full data sheet, which is available on request vi a the local nxp semiconductors sales office. in case of any inconsistency or conflict with the short data sheet, the full data sheet shall prevail. product specification ? the information and data provided in a product data sheet shall define the specification of the product as agreed between nxp semiconductors and its customer , unless nxp semiconductors and customer have explicitly agreed otherwis e in writing. in no event however, shall an agreement be valid in which the nxp semiconductors product is deemed to offer functions and qualities beyond those described in the product data sheet. 17.3 disclaimers limited warranty and liability ? information in this document is believed to be accurate and reliable. however, nxp semiconductors does not give any representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. in no event shall nxp semiconductors be liable for any indirect, incidental, punitive, special or consequential damages (including - without limitation - lost profits, lost savings, business interrupt ion, costs related to the removal or replacement of any products or rework charges) whether or not such damages are based on tort (including negligence), warranty, breach of contract or any other legal theory. notwithstanding any damages that customer might incur for any reason whatsoever, nxp semiconductors? aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the terms and conditions of commercial sale of nxp semiconductors. right to make changes ? nxp semiconductors reserves the right to make changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice. this document supersedes and replaces all information supplied prior to the publication hereof. suitability for use in automotive applications ? this nxp semiconductors product has been qua lified for use in automotive applications. the product is not desi gned, authorized or warranted to be suitable for use in medical, military, aircraft, space or life support equipment, nor in applications where failure or malfunction of an nxp semiconductors product can reasonably be ex pected to result in personal injury, death or severe property or environmental dam age. nxp semiconductors accepts no liability for inclusion and/or use of nxp semiconductors products in such equipment or applications and therefore such inclusion and/or use is at the customer?s own risk. applications ? applications that are described herein for any of these products are for illustrative purpos es only. nxp semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification. customers are responsible for the design and operation of their applications and products using nxp semiconductors products, and nxp semiconductors accepts no liability for any assistance with applications or customer product design. it is customer?s sole responsibility to determine whether the nxp semiconductors product is suitable and fit for the customer?s applications and products planned, as well as fo r the planned application and use of customer?s third party customer(s). customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products. nxp semiconductors does not accept any liability related to any default, damage, costs or problem which is based on any weakness or default in the customer?s applications or products, or the application or use by customer?s third party customer(s). customer is responsible for doing all necessary testing for the customer?s applic ations and products using nxp semiconductors products in order to av oid a default of the applications and the products or of the application or use by customer?s third party customer(s). nxp does not accept any liability in this respect. limiting values ? stress above one or more limiting values (as defined in the absolute maximum ratings system of iec 60134) will cause permanent damage to the device. limiting values are stress ratings only and (proper) operation of the device at these or any other conditions above those given in the recommended operating conditions section (if present) or the characteristics sections of this document is not warranted. constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device. terms and conditions of commercial sale ? nxp semiconductors products are sold subject to the gener al terms and conditions of commercial sale, as published at http://www.nxp.com/profile/terms , unless otherwise agreed in a valid written individual agreement. in case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply. nxp semiconductors hereby expressly objects to applying the customer?s general terms and conditions with regard to the purchase of nxp semiconducto rs products by customer. no offer to sell or license ? nothing in this document may be interpreted or construed as an offer to sell products t hat is open for acceptance or the grant, conveyance or implication of any lic ense under any copyrights, patents or other industrial or intellectual property rights. document status [1] [2] product status [3] definition objective [short] data sheet development this document contains data from the objecti ve specification for product development. preliminary [short] data sheet qualification this document contains data from the preliminary specification. product [short] data sheet production this docu ment contains the product specification. uja1023 all information provided in this document is subject to legal disclaimers. ? nxp b.v. 2010. all rights reserved. product data sheet rev. 5 ? 17 august 2010 48 of 49 nxp semiconductors uja1023 lin-i/o slave quick reference data ? the quick reference data is an extract of the product data given in the limiting values and characteristics sections of this document, and as such is not comple te, exhaustive or legally binding. export control ? this document as well as the item(s) described herein may be subject to export control regu lations. export might require a prior authorization from national authorities. 17.4 trademarks notice: all referenced brands, produc t names, service names and trademarks are the property of their respective owners. 18. contact information for more information, please visit: http://www.nxp.com for sales office addresses, please send an email to: salesaddresses@nxp.com nxp semiconductors uja1023 lin-i/o slave ? nxp b.v. 2010. all rights reserved. for more information, please visit: http://www.nxp.com for sales office addresses, please se nd an email to: salesaddresses@nxp.com date of release: 17 august 2010 document identifier: uja1023 please be aware that important notices concerning this document and the product(s) described herein, have been included in section ?legal information?. 19. contents 1 general description . . . . . . . . . . . . . . . . . . . . . . 1 2 features and benefits . . . . . . . . . . . . . . . . . . . . 2 3 quick reference data . . . . . . . . . . . . . . . . . . . . . 2 4 ordering information . . . . . . . . . . . . . . . . . . . . . 3 5 block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . 3 6 pinning information . . . . . . . . . . . . . . . . . . . . . . 4 6.1 pinning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 6.2 pin description . . . . . . . . . . . . . . . . . . . . . . . . . 4 7 functional description . . . . . . . . . . . . . . . . . . . 5 7.1 short description of the uj a1023 . . . . . . . . . . . 5 7.1.1 lin controller . . . . . . . . . . . . . . . . . . . . . . . . . . 5 7.1.2 lin transceiver (including termination) . . . . . . . 5 7.1.3 automatic bit rate detection . . . . . . . . . . . . . . . 5 7.1.4 oscillator. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 7.1.5 i/o block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 7.1.6 adc . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 7.1.7 pwm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 7.1.8 cyclic sense . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 7.2 lin controller . . . . . . . . . . . . . . . . . . . . . . . . . . 6 7.2.1 configuration . . . . . . . . . . . . . . . . . . . . . . . . . . 6 7.2.1.1 message sequence . . . . . . . . . . . . . . . . . . . . . 6 7.2.1.2 lin slave node address assignment . . . . . . . . 8 7.2.1.3 assign frame id . . . . . . . . . . . . . . . . . . . . . . . 14 7.2.1.4 read by identifier . . . . . . . . . . . . . . . . . . . . . . 15 7.2.1.5 i/o configuration . . . . . . . . . . . . . . . . . . . . . . . 16 7.2.1.6 configuration examples . . . . . . . . . . . . . . . . . 22 7.2.2 operating modes . . . . . . . . . . . . . . . . . . . . . . 24 7.2.2.1 configuration mode . . . . . . . . . . . . . . . . . . . . 25 7.2.2.2 normal mode . . . . . . . . . . . . . . . . . . . . . . . . . 25 7.2.2.3 sleep mode . . . . . . . . . . . . . . . . . . . . . . . . . . 25 7.2.2.4 limp home sleep mode . . . . . . . . . . . . . . . . . 25 7.2.2.5 limp home mode and standby mode . . . . . . . 26 7.2.3 i/o pin modes . . . . . . . . . . . . . . . . . . . . . . . . . 26 7.2.3.1 input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 7.2.3.2 level mode . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 7.2.3.3 pwm mode . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 7.2.3.4 cyclic sense mode . . . . . . . . . . . . . . . . . . . . . 26 7.2.3.5 switch matrix mode . . . . . . . . . . . . . . . . . . . . 27 7.2.3.6 adc mode . . . . . . . . . . . . . . . . . . . . . . . . . . . 28 7.2.4 inh pin mode . . . . . . . . . . . . . . . . . . . . . . . . . 29 7.2.5 lin-i/o message frames . . . . . . . . . . . . . . . . 29 7.3 i/o block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 7.3.1 i/o pins p0 to p7 . . . . . . . . . . . . . . . . . . . . . . 32 7.3.2 inh pin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33 7.4 configuration pins c1 to c3 . . . . . . . . . . . . . . 34 7.5 lin transceiver . . . . . . . . . . . . . . . . . . . . . . . . 34 7.6 on-chip oscillator . . . . . . . . . . . . . . . . . . . . . . 36 8 limiting values . . . . . . . . . . . . . . . . . . . . . . . . 36 9 thermal characteristics . . . . . . . . . . . . . . . . . 36 10 static characteristics . . . . . . . . . . . . . . . . . . . 37 11 dynamic characteristics. . . . . . . . . . . . . . . . . 39 12 application information . . . . . . . . . . . . . . . . . 42 13 test information . . . . . . . . . . . . . . . . . . . . . . . 42 13.1 quality information . . . . . . . . . . . . . . . . . . . . . 42 14 package outline. . . . . . . . . . . . . . . . . . . . . . . . 43 15 soldering of smd packages . . . . . . . . . . . . . . 44 15.1 introduction to soldering. . . . . . . . . . . . . . . . . 44 15.2 wave and reflow soldering. . . . . . . . . . . . . . . 44 15.3 wave soldering . . . . . . . . . . . . . . . . . . . . . . . 44 15.4 reflow soldering . . . . . . . . . . . . . . . . . . . . . . 45 16 revision history . . . . . . . . . . . . . . . . . . . . . . . 46 17 legal information . . . . . . . . . . . . . . . . . . . . . . 47 17.1 data sheet status . . . . . . . . . . . . . . . . . . . . . . 47 17.2 definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . 47 17.3 disclaimers . . . . . . . . . . . . . . . . . . . . . . . . . . 47 17.4 trademarks . . . . . . . . . . . . . . . . . . . . . . . . . . 48 18 contact information . . . . . . . . . . . . . . . . . . . . 48 19 contents. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 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Price & Availability of UJA1023T
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