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copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 1/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the information furnis hed in this publication is prelim inary and subject to changes wit hout notice. zmd30011 lin transceiver datasheet preliminary features ? compliant with lin specifications 1.3 and 2.0 ? sleep mode and wake-up-function to reduce power consumption ? wake-up via wake-pin, en-pin, or bus wake- up-message ? battery related output to control an external voltage regulator ? interfaces mcu with 3.3v or 5v ? lin bus speed up to 20kbaud ? supply voltage 6.5v to 18v ? operating temperature ?40 to +125c ? 8kv esd protection for pins lin, inh, wake, vsup ? thermal overload protection ? sop8 package benefits ? very low standby current in sleep mode (typical 14a) ? excellent electromagnetic compatibility ? bus i/o slew rate control ensures low rf- emission description zmd30011 is a cmos integrated circuit for application in a local interconnect network (lin). the device is used as a part of a master or slave node and works as an interface between the physical bus and the protocol controller. it realizes data switching (between bus and txd/rxd) and level shifting (between battery voltage and controller voltage). zmd30011 is equipped with sleep mode and wake- up-function to reduce power consumption. it has a battery related output to control an external voltage regulator which supplies other devices. the ic is optimised for automotive environments by it?s very low standby current, excellent electromagnetic compatibility, esd protection and thermal overload protection. application circuit (example) zmd30011 lin transceiver voltage regulator micro- controller rxd txd en wake lin vsup inh application (sensor, actuator, switch, etc) gnd lin-bus v bat fig.1: application circuit example
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 2/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary content 1. block sche matic................................................................................................................ ...................... 3 2. pin descri ption ................................................................................................................ ......................... 4 2.1 p in c onfiguration ............................................................................................................................... ........ 4 2.2 rxd-p in ............................................................................................................................... ........................ 4 2.3 en-p in ............................................................................................................................... ........................... 4 2.4 wake-p in ............................................................................................................................... ..................... 4 2.5 txd-p in ............................................................................................................................... ......................... 5 2.6 gnd-p in ............................................................................................................................... ........................ 5 2.7 lin-b us -p in ............................................................................................................................... ................... 5 2.8 vsup-p in ............................................................................................................................... ...................... 5 2.9 inh-p in ............................................................................................................................... .......................... 6 3. functional d escription......................................................................................................... ............... 7 3.1 s equence c ontrol ............................................................................................................................... ...... 7 3.2 w ake -u p -e vents ............................................................................................................................... .......... 7 3.3 i nternal r egulator ............................................................................................................................... ..... 8 3.4 b attery v oltage c ontrol ......................................................................................................................... 8 3.5 3.3v and 5v l ogic c apability ..................................................................................................................... 8 4. electromagnetic compatibilit y and short-circui t immuni ty............................................ 10 5. fail-safe- feature s ............................................................................................................. .................. 10 6. electrical paramet ers.......................................................................................................... ............ 11 6.1 m aximum r atings ............................................................................................................................... ....... 11 6.2 e lectrical c haracteristics .................................................................................................................... 12 7. timing charact eristics......................................................................................................... .............. 15 8. packag e ........................................................................................................................ ............................. 17 9. related do cumen ts.............................................................................................................. ................ 18 10. ordering in format ion ........................................................................................................... .............. 18
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 3/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 1. block schematic fig.2: block schematic
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 4/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 2. pin description 2.1 pin configuration pin symbol description 1 rxd receive data output 2 en sleep control input normal mode=high sleep mode=low 3 wake local wake-up input 4 txd transmit data input 5 gnd ground 6 lin single wire bus input/output 7 vsup battery supply input 8 inh battery related inhibit output to control an external voltage regulator fig. 3: pin configuration 2.2 rxd-pin this pin reports the state of the lin bus voltage to the pr otocol controller. a lin-low- level (dominant state) is transmitted as a cmos-low-level. a rece ssive lin-state (lin-high-level) is transmitted as a cmos-high-level. the rxd output structure is an open-drai n output stage. this allows the zmd30011 to be used with 3.3 v or 5 v i/o protocol controllers. if the controller?s rxd pin does not have an integrated pull-up, an external pull-up resistor to the microcontroller i/o supply voltage is requir ed. the driver is tristated in the sleep-mode . 2.3 en-pin this input determines the operation mode of the dev ice. en=high sets the device to the normal-mode , en=low sets the device to the sleep-mode significantly reducing t he current consumption. if the signal is floating then the en-pin is held on low by an internal pull-down-resistor. the pull-down-current is restricted to 25 a typically. 2.4 wake-pin the wake-pin is a high-voltage-input. a low-signal from the system (trigger) wakes up the transceiver from the sleep-mode (local wake-up). an input filter prevents unintended wake -up in the case of transients. an internal pull- up-resistor prevents floating of t he pin in the unconnected state. if the application does not require a local wake-up t han the wake-pin has to be connected with vsup. 1 2 3 4 8 7 6 5 sop8 150 mil top view
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 5/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 2.5 txd-pin this cmos-input connects the external protocol controller to the transceiver . a txd-low-level is transmitted as a lin-low-level too. the lin-driver is tr istated if txd is high, hence the bus is set to recessive state using the pull-up- resistor. the txd-input has an internal pull-up-re sistor which is switched off in the sleep-mode . error protection: if the protocol unit does not transmit a defined le vel then the internal pull-up-resistor sets txd=high. as a result the transmitter is tristated. 2.6 gnd-pin the gnd-pin represents the ground level. level suspensions 2 v do not influence the data transfer. a ground loss in the recessive state does not lead to a significant current at the lin-pin. 2.7 lin-bus-pin the circuit blocks receiver and transmitter r ealize the bi-directional lin-bus-connection. receiver: the input voltage of the receiver depends on the supply voltage ratiometricly. the threshold amounts to 0.4 respective 0.6 vsup with a typical hyst eresis of 10 % vsup. the receiver is active in the sleep mode too. the filter in the input signal path suppresse s spikes with a duration of < 4 s. transmitter: the transmitter consists of a low- side-driver supplying 20 ma at a ty pical output-voltage of 1 v. it transmits a low level if there is a low level on the txd-pin. an internal pull-up resistor of 30 k ? pushes the bus node to the high level in the locked transmitter state. a diode is located in series to the resistor and prevents a re flow current from the bus into the battery supply line in the case of a local supply loss or a ground level shift. the transmitter is only active in the normal-mode . in the sleep-mode and in the wait-mode the transmitter is tristated. a slope-control adjusts both edges (falling edge from the recessive to the dominant driver state and rising edge from the dominant to the recessive driver state) to 2v/ s typically. as a result the electromagnetic emission is minimal. the capacitive lin-bus-load has to be restricted to a total of <=10 nf at a total resistance 0.5 k ? in order to ensure the symmetry of both edges. in the case of short circuits to batte ry supply the drivers current limitation begins to work at 180 ma typical. the driver is also protected against thermal overloads. in the range from -18 v to 30 v the current vsup-lin is determined only by the pull-up-resistor. a vsup loss in the recessive driver state does not lead to a significant current at the lin-pin. 2.8 vsup-pin the vsup-pin has to be protected by an external di ode against reverse polarity of the battery supply. the protection against galvanic and capacitive coupled transient s is realized by a special internal circuitry. the operational supply voltage reaches from 6.5 to 18 v dc. a voltage control prevents an incorrect bus transfer below the operating voltage range. the quiescent current in the sleep-mode amounts to typical 14a. in the normal-mode the quiescent current amounts to max. 2 ma in the state of dominant lin-bus.
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 6/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 2.9 inh-pin the inh-pin ("inhibit-pin") is a high-voltage-output controlled by the en-input. in the normal-mode and in the wait- mode the inhibit high-side-driver sets inh=v sup (en=high). the inh-pin may be used to switch on an external regulator or to set external switc hes active for an interrupt request. the inhibit-driver is c apable to source 40ma typically. if en is set to low then the tran sceiver switches to the sleep-mode and separates external modules from v sup by tristating the inh-pin. hence, a voltage regulator with its inhibit pin connected to inh will be disabled. if the master node pull-up resistor is connected to inh t hen it will be disabled from the lin bus. a wake-up-event or en=high sets inh=high.
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 7/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 3. functional description 3.1 sequence control the internal sequence control manages the operation modi and their transient states (see figure 2). normal-mode : inh=high, en=high, bus transfer permitted sleep-mode : inh tristated, en=low, only bus reception possible the receiver stands in the active state and the dr iver is tristated. se tting en to high brings the transceiver into the normal-mode . applying wake=high at the wake pin or a lin bus wake-up message bring the device into the wait-mode . wait-mode : inh=high, en=low, bus transfer impossible, switching en to high switches t he transceiver into the normal-mode from another mode. the transceiver switches to the power- down state from any operation mode if v sup falls below 6.5 v. as soon as v sup rises over 6.5v again the transceiver c hanges from power-down into the wait-mode . the transceiver changes into the wait-mode too from another mode if the junc tion temperature rises over 150c. the change from wait-mode into the normal m ode is caused by setting en to high. 3.2 wake-up-events there are three methods how to wake up the transceiver from sleep-mode : (1) wake-up by wake-pin active an internal timer supervises the level at the wake-pi n. if the wake-level falls fr om wake-high to wake-low and stays there for minimal 40 s than the timer activates the inh-output. t he transceiver switches into the wait-mode within maximal 150 s after the falling edge of the wake pin. by doing so spike pulses are filtered out effectively. when the external regulator has reached its output leve l and the system is ready than the protocol-controller switches en=high. the transceiver changes into to the normal-mode and gets ready for bus transfers. (2) wake-up by bus-message: the reception of a lin-low-level (dominant state for 250s to 5ms) in the sleep-mode triggers the following wake- up-sequence: at the latest 150s after the falling edge of the lin signal the transceiver activates t he system?s voltage regulator by setting inh=high and goes to the wait-mode . after a system reaction time (until regulator and application active) the protocol-controller sets en=high. the device switches to the normal-mode and gets ready for bus transfers. an anti-bounce filter suppresses spike pulses from the lin bus. (3) wake-up by en-pin active: there are systems with an external power supply which are also active in the lin-transceiver?s sleep-mode . if the application of such a system gets active then the protocol controller sets en =high. the transceiver switches to normal-mode at once and is ready for the transfer of a wake-up- frame from the protocol controller to the lin-bus. in such applications the inh-pin can be used fo r other purposes, e.g. for an interrupt request.
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 8/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 3.3 internal voltage regulator the transceiver has an internal voltage regulator generating a voltage v dd =5v from the battery supply v sup . this works in all operation modes. in the sleep-mode this voltage regulator changes in to a low-power-mode. this mode guaranties the supply of the rece iver and the sequence control. 3.4 battery voltage control the battery voltage control is realized indirectly by a power-on-clear-circuit supervising the internal supply v dd . this circuit gives a signal to the sequence control if the external supply voltage v sup falls below 6.5v. in this case a contingent bus transfer can be prevented and t he transceiver changes into the wait-mode . 3.5 3.3v and 5v logic capability the zmd30011 can be used for 3.3v and 5v micro controlle rs. en, rxd and txd are capable to operate with both voltage levels. therefore an external pull-up resistor is required at the rxd pin.
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 9/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary v sup > 6.5v en = 1 en = 0 en = 1 fig. 4: state diagram wake up events: 1) internal node activity 2) wake switch 3) lin-bus wake up tsc?three state current wake-up from wake or lin v sup < 6.5v power down wait mode inh = on transmitter = off inh = on transmitter = on normal mode inh = off transmitter = off sleep mode t j > 150c
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 10/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 4. electromagnetic compatibility and short-circuit immunity electromagnetic emission: the built-in slope-control adjusts the slew rates to 2 v/ s for the rising and the falling edges. as a result the electromagnetic emission is at a minimum. electromagnetic sensitivity: the pins lin, wake, vsup and inh are equipped with protecti ve circuits resistant to electromagnetic imission. the esd-protection at these pins is guaranteed for 8 kv (human body model). the protection against transients (test impulses 1...3 accordi ng to iso 7637/1) is improved by the external slave- or master-capacitors between vsup and gnd and between lin and gnd. short circuit immunity: the lin-interface is shor t-circuit-proof against v sup and ground. 5. fail-safe-features short-circuit at lin the current of the transmitter output stage is limited to i lim in order to protect the trans mitter against short-circuit to v bat or gnd. in case of such a short-circuit t he temperature exceeds the shutdown temperature t shut due to the power dissipation ? the zmd30011 goes into t he wait-mode and the transmitter switches off. the zmd30011 has a special circuitry implemented that protec ts the battery from running out of charge in the case of a short circuit between lin and gnd. in this failure ca se a normal master termination (1k resistor and diode in series between lin and vsup) would cause a constant drawn current (even in sleep mode). the zmd30011?s special circuitry avoids this drawn current. this feature is only applicable, if the master terminati on is connected with the inh pin, instead of vsup. loss of ground or v sup a loss of power (pins gnd or vsup) has no impact to the bus line and the protocol handler. since there are no reverse currents from the bus the lin transceiver can be disconnected from the power supply without influencing the lin bus. pin rxd is set floating if vsup is disconnected. thermal overload the output driver at pin lin is protected against t hermal overload conditions. if the junction temperature exceeds the shutdown temperature t shut , the thermal protection circuit disables the output driver. the driver is enabled again if the juncti on temperature has been decreased about t hyst . txd disconnection pin txd provides a pull-up resistor to force the tran sceiver into recessive mode if txd is disconnected. en disconnection pin en provides an internal pull-down re sistor in order to force the transceiv er into sleep mode in case the pin en is unsupplied.
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 11/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 6. electrical parameters 6.1 maximum ratings in accordance with the absolute maximum rating system (iec 60134) electrical ratings parameter symbol min max units remarks continuous voltage at vsup transients v sup v sup -0.3 30 40 v v pulse 1...3 iso 7637/1 (test circuit figure 8) input voltage at lin dc transients v lin v lin -18 -150 30 +100 v v pulse 1...3 iso 7637/1 (test circuit figure 8) input voltages at txd, rxd, en v in -0.3 6.5 v input voltages at wake dc transients v inwake v inwake -18 30 40 v v pulse 1...3 iso 7637/1 (test circuit figure 8) esd at txd, rxd, en v esd -4 +4 kv human body model mil-std 883 (100pf via 1.5k ? ) esd at lin, vsup, inh, wake v hbm -8 8 kv human body model mil-std 883 1.5kohm, 100pf esd at all pins v mm -200 200 v machine model 220pf thermal ratings parameter symbol min max units remarks junction temperature t j -40 150 oc storage temperature t stg -55 150 oc ambient operation temperature t a -40 125 oc thermal resistance junction to ambient r tha 150 oc/w sop8 (150) in free air thermal shutdown 1) t shut 150 195 oc thermal shutdown 1) hysteresis t hyst 10 30 oc 1) not tested, guaranteed by design
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 12/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 6.2 electrical characteristics v sup = 6.5...18 v, t j = -40 ...+150 c, typical values specified for v sup = 12 v, r vsup-lin = 500 ? (if not otherwise defined) battery supply vsup parameter symbol min typ. max units conditions dc voltage v sup 6.5 12 18 v supply current in the normal mode, dominant state i sdom 0.7 1.3 2.0 ma en = 5v txd = 0v r rxd = supply current in the normal mode, recessive state i srec 0.4 1.0 1.4 ma en = 5 v txd = 5 v r rxd = supply current in the sleep mode i sleep 8 14 20 a en = 0v txd = 5v v lin > v sup - 0.5v receive data output rxd parameter symbol min typ. max units conditions low level output current i rxl 2 ma en = 5v txd = 0v v rxd = 0.9v high level leakage current i rxh -5 5 a en = 5v txd = 5v v rxd = 5v transmit data input txd parameter symbol min typ. max units conditions low level voltage input v txdinl -0.3 0.8 v high level voltage input v txdinh 2.0 7 v pull-down current source txd i txdpu -20 -10 -20 a en = 5v txd = 5v
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 13/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary mode control input enable en parameter symbol min typ. max units conditions low level voltage input v eninl -0.3 1.4 v external vdd=5v, txd=5v high level voltage input v eninh 2.5 7 v external vdd=5v, txd=5v pull down current enable i pden 10 20 35 a en = 4v bus input/output lin parameter symbol min typ. max units remarks input low level voltage receiver v recl 0 0.4 v sup v en = 5v txd = 5v input high level voltage receiver v rech 0.6 v sup v sup v en = 5v txd = 5v input hysteresis receiver v rechys 0.08 v sup 0.12 v sup v en = 5v txd = 5v input centerpoint receiver v bus_cnt 0.475 v sup 0.5 v sup 0.525 v sup v v bus_cnt =(v th_dom +v th_rec )/2 *) output low level voltage transmitter v linl 0.6 1.1 1.8 v en = 5v, txd = 0v r bus = 500 ? output high level transmitter v linh 0.8v sup v sup v txd = 5v i lin =0ma pull up current vsup to lin i linpu -550 -450 -300 a v sup =12v v lin = 0v, txd=5v output current limitation lin i lim 120 180 200 ma en=5v txd =0v v sup =v lin =12v input current lin recessive i linleak1 4 10 18 a v sup =v lin txd=5v input current lin recessive, bus no gnd i linnognd -1.0 1.0 ma v lin = -12v txd = 5v *) v th_dom receiver threshold of the recessive to dominant lin bus edge v th_rec receiver threshold of the dominant to recessive lin bus edge
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 14/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary local wake-up-input wake parameter symbol min typ. max units remarks wake up threshold high to low transition v wuthl 0.6 v sup v en=0v inhibit output inh parameter symbol min typ. max units remarks inhibit output current high level i inhh 40 40 ma v inh = 0v inhibit output resistance high level r inhh 30 ohm i inhh =15ma inhibit leakage current i inhleak -5 a en=0v, txd=5v wake=0v vsup=18v v inh =0v
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 15/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 7. timing characteristics vsup = 6.5...18v, t j =-40...150 c, typical values are specified for v sup =12v, unless otherwise defined. internal timers parameter symbol min. typ. max. units remarks lin falling edge slew rate t fall 2 v/ s c bus =10nf r bus =500 ? lin rising edge slew rate t rise 2 v/ s c bus =10nf r bus =500 ? propagation delay receiver t rx_pd * 6 s c rxd =20pf symmetry of receiver propagation delay rising edge w.r.t. falling edge t rx_sym -2 2 s c rxd =20pf bus wake up to inh=high propagation delay t linwake 80 150 s en=0v wake propagation delay wake to inh=high t wake 80 150 s en=0v * t rx_pd = max(t rx_pdf ; t rx_pd ) lin bus drivers (see fig. 5) load conditions at lin: (r bus =1k ? c bus =1nf c rxd =20pf) or (r bus =500 ? c bus =10nf c rxd =20pf) lin bus speed parameter symbol min. typ. max. units remarks duty cycle 1 d1 0.396 th rec(max) =0.744* v sup th dom(max) =0.581* v sup v sup =7.0?18v; t bit =50s; d1= t bus_rec(min) =/(2* t bit ) 20kbaud duty cycle 2 d2 0.581 th rec(min) =0.422* v sup th dom(min) = 0.284* v sup v sup =7.6?18v; t bit =50s; d1= t bus_rec(max) =/(2* t bit )
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 16/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary fig. 5: lin bus driver timing characteristics figure 6: bus wake up and wake timing description inh lin/wake 0.6 vsup t linwake /t wake
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 17/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 8. package
copyright ? 2005, zmd ag, rev. 0.2, 2005-07-13 18/18 all rights reserved. the material contai ned herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner. the inform ation furnished in this publication is pr eliminary and subject to changes without not ice. zmd30011 lin transceiver datasheet preliminary 9. related documents ? zmd30011 feature sheet note: for the current revision of this document and for additional information please go to www.zmd.biz. 10. ordering information ordering code description operation temperature package type device marking shipping form* zmd30011aag1-t ?green? finished parts in tube -40c to +125c sop8 zmd 30011aag1 yyww tube (97 parts/tube) ZMD30011AAG1-R ?green? finished parts in tape on reel -40c to +125c sop8 zmd 30011aag1 yyww tape on reel (2500 parts/reel) * the quantity ordered should be a multiple of the quantity / packing unit as specified this information applies to a product under development. its characterist ics and specifications are subject to change without n otice. zmd assumes no obligation regarding future manufacture unless otherwi se agreed in writing. the information furnished hereby is beli eved to be correct and accurate. however, zmd shall not be liable to any cu stomer, licensee or any other third party for any damages in co nnection with or arising out of the furnishing, performance or use of this tec hnical data. no obligation or liability to any customer, licensee or any other third party shall result from zmd?s rendering of technical or other services. for further information: zmd ag grenzstrasse 28 01109 dresden, germany phone +49 (0)351-8822-366 fax +49 (0)351-8822-337 sales@zmd.de www.zmd.biz

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