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| TH8055 Single Wire CAN Transceiver Features and Benefits Fully compatible with J2411 Single Wire CAN specification for Class B in vehicle communications 30 A typical power consumption in sleep mode independent from CAN voltage range Operating voltage range 5...18V Up to 100 kbps high-speed transmission mode Up to 40 kbps bus speed Selective BUS wakeup Low RFI due to output wave shaping Fully integrated receiver filter Bus terminals proof against short-circuits and transients in automotive environment Loss of ground protection Protection against load dump, jump start Thermal overload and short circuit protection ESD protection of 4 kV on CAN pin (2kV on any other pin) Undervoltage lock out Bus dominant timeout feature Ordering Information Ordering No. TH8055 JDC Temperature Range -40 to 125 C Package SOIC8 General Description The TH8055 is a physical layer device for a single wire data link capable of operating with various CSMA/CR protocols such as the Bosch Controller Area Network (CAN) version 2.0. This serial data link network is intended for use in applications where high data rate is not required and a lower data rate can achieve cost reductions in both the physical media components and in the microprocessor and/or dedicated logic devices which use the network. The network shall be able to operate in either the normal data rate mode or a high speed data download mode for assembly line and service data transfer operations. The high speed mode is only intended to be operational when the bus is attached to an off-board service node. This node shall provide temporary bus electrical loads which facilitate higher speed operation. Such temporary loads shall be removed when not performing download operations. The bit rate for normal communications is typically 33 kbit/s, for high speed transmissions like described above a typical bit rate of 83 kbit/s is recommended. The TH8055 is designed in accordance to the Single Wire CAN Physical Layer Specification GMW3089 V1.26 and supports many additional features like undervoltage lockout, timeout for faulty blocked input signals, output blanking time in case of bus ringing and a very low sleep mode current. TH8055 - Datasheet 3901008055 Page 1 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver Contents 1. 2. 2.1 2.2 2.3 2.4 2.5 2.6 Functional Diagram.................................................................................................3 Functional Description ...........................................................................................4 TxD Input Pin ........................................................................................................................................ 4 Mode 0 and Mode 1 pins ...................................................................................................................... 4 RxD Output pin ..................................................................................................................................... 5 Bus LOAD pin ....................................................................................................................................... 5 VBAT INPUT pin................................................................................................................................ 6 CAN BUS input/output pin .................................................................................................................... 6 3. 3.1 3.2 3.3 3.4 3.5 3.6 Electrical Specification...........................................................................................7 Operating Conditions ............................................................................................................................ 7 Absolute Maximum Ratings.................................................................................................................. 7 Static Characteristics ............................................................................................................................ 8 Dynamic Characteristics ..................................................................................................................... 10 Bus loading requirements................................................................................................................... 11 Timing Diagrams................................................................................................................................. 12 4. 5. 6. 7. 7.1 7.2 Application Circuitry.............................................................................................14 Pin Description......................................................................................................15 Mechanical Specification .....................................................................................16 Tape and Reel Specification ................................................................................17 Tape Specification .............................................................................................................................. 17 Reel Specification ............................................................................................................................... 18 8. 9. Assembly Information ..........................................................................................19 Disclaimer..............................................................................................................19 TH8055 - Datasheet 3901008055 Page 2 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 1. Functional Diagram VBAT 5V Supply and References TH8055 Biasing and VBATMonitor Reverse Current Protection RC-Osc Wave Shaping TxD CAN Driver Time Out CANH Feedback Loop Input Filter MODE0 MODE CONTROL LOAD Loss of Ground Detection MODE1 Receive Comparator RxD RxD Blanking Time Filter Reverse Current Protection GND Figure 1- Block Diagram TH8055 - Datasheet 3901008055 Page 3 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 2. Functional Description 2.1 TxD Input Pin TxD Polarity TxD = logic 1 (or floating) on this pin produce an undriven or recessive bus state (low bus voltage) TxD = logic 0 on this pin produce either a bus normal or a bus high voltage dominant state depending on the transceiver mode state (high bus voltage) If the TxD pin is driven to a logic low state while the sleep mode (Mode0=0 and Mode1=0) is activated, the transceiver not drive the CANH pin to the dominant state. The transceiver provides an internal pull up current on the TxD pin which will cause the transmitter to default to the bus recessive state when TxD is not driven. TxD input signals are standard CMOS logic levels. Timeout Feature In case of a faulty blocked dominant TxD input signal the CANH output is switched off automatically after the specified TxD timeout reaction time to prevent a dominant bus. The transmission is continued by next TxD L to H transition without delay. 2.2 Mode 0 and Mode 1 pins The transceiver provides a weak internal pull down current on each of these pins which causes the transceiver to default to sleep mode when they are not driven. The mode input signals are standard CMOS logic level. M0 L H L H M1 L L H H Mode Sleep mode High speed mode Wake up Normal mode Sleep Mode Transceiver is in low power state, waiting for wake up via high voltage signal or by mode pins change to any state other than 0,0. In this state, the CANH pin is not in the dominant state regardless of the state of the TxD pin. High Speed Mode This mode allows high speed download with bitrates up to 100Kbit/s. The output waveshaping circuit is disabled in this mode. Bus transmitter drive circuits for those nodes which are required to communicate in high speed mode are able to drive reduced bus resistance in this mode (see Table Static Characteristics). High speed communications shall utilize the normal mode signal voltage levels as specified in Static Characteristics. TH8055 - Datasheet 3901008055 Page 4 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver Wake Up Mode This bus includes a selective node awake capability, which allows normal communication to take place among some nodes while leaving the other nodes in an undisturbed sleep state. This is accomplished by controlling the signal voltages such that all nodes must wake up when they receive a higher voltage message signal waveform. The communication system communicates to the nodes information as to which nodes are to stay operational (awake) and which nodes are to put themselves into a non communicating low power "sleep" state. Communication at the lower, normal voltage levels shall not disturb the sleeping nodes. Normal mode Transmission bit rate in normal communication is 33 Kbits/s. In normal transmission mode the TH8055 supports controlled waveform rise and overshoot times. Waveform trailing edge control is required to assure that high frequency components are minimized at the beginning of the downward voltage slope. The remaining fall time occurs after the bus is inactive with drivers off and is determined by the RC time constant of the total bus load. 2.3 RxD Output pin RxD polarity RxD = logic 1 on this pin indicates a bus recessive state (low bus voltage) RxD = logic 0 on this pin indicates a bus normal or high voltage bus dominant state RxD in Sleep Mode RxD do not pass signals to the micro processor while in sleep mode until a valid wake up bus voltage level is received or the Mode 0,1 pins are not 0,0 respectively. When the valid wake up bus voltage signal awakens the transceiver, the RxD pin signalised an interrupt (logic 0). However, if the Mode 0 & 1 pins are at logic 0, the transceiver returns to the sleep condition when the wake up bus voltage signal is not present. When not in sleep mode all valid bus signals will be sent out on the RxD pin. RxD will be placed in the undriven or off state when in sleep mode. RxD Typical Load Resistance: 2.7 kOhm Capacitance: < 25 pF 2.4 Bus LOAD pin Resistor ground with internal open-on-loss-of-ground protection When the ECU experiences a loss of ground condition, this pin is switched to a high impedance state. The ground connection through this pin is not interrupted in any transceiver operating mode including the sleep mode. The ground connection only is interrupted when there is a valid loss of ground condition. This pin provides the bus load resistor with a path to ground which contributes less than 0.1 volts to the bus offset voltage when sinking the maximum current through one unit load resistor. The transceiver's maximum bus leakage current contribution to VOL from the LOAD pin when in a loss of ground state is 50uA over all operating temperatures and 3.5 < VBAT < 18 volts . TH8055 - Datasheet 3901008055 Page 5 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 2.5 VBAT INPUT pin Vehicle Battery Voltage The transceiver is fully operational as described in Table Static Characteristics over the range 5 < VBAT < 18 volts as measured between the GND pin and the VBAT pin. For 0 < VBAT < 4.95 volts, the bus is passive (not be driven dominant) and RxD is undriven (high), regardless of the state of the TxD pin (undervoltage lockout). The transceiver operates in normal mode when 18V > VBat IC > 27V at 85C for one minute. Other active modes are possible until thermal shutdown (because of increased power dissipation), the transceiver does not disturb normal communication. 2.6 CAN BUS input/output pin Wave Shaping in normal and wake up mode Wave shaping is incorporated into the transmitter to minimize EMI radiated emissions. An important contributor to emissions is the rise and fall times during output transitions at the "corners" of the voltage waveform. The resultant waveform is one half of a sin wave of frequency 50 - 65 kHz at the rising waveform edge and one quarter of this sin wave at falling or trailing edge. Wave Shaping in high speed mode Wave shaping control of the rising and falling waveform edges are disabled during high speed mode. EMI emissions requirements are waived during this mode. The waveform rise time in this mode is less than one s. Short circuits If the CAN BUS pin is shorted to ground for any duration of time, the current is limited as specified in table "static characteristics" and an over temperature shut down circuit disables the output high side drive source transistor before the local die temperature exceeds the damage limit threshold. Loss of ground In case of a valid loss of ground condition, the LOAD pin is switched into high impedance state. The CANH transmission is continued until the undervoltage lock out voltage threshold is detected. Loss of battery In case of loss of battery (VBAT = 0 or open) the transceiver do not disturb bus communication. The maximum reverse current into power supply system doesn`t exceed 1mA. TH8055 - Datasheet 3901008055 Page 6 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 3. Electrical Specification All voltages are referenced to ground (GND). Positive currents flow into the IC. The absolute maximum ratings given in the table below are limiting values that do not lead to a permanent damage of the device but exceeding any of these limits may do so. Long term exposure to limiting values may affect the reliability of the device. Reliable operation of the TH8055 is only specified within the limits shown in "Operating conditions". 3.1 Operating Conditions Parameter Battery voltage Operating ambient temperature Junction temperature Symbol VBAT TA TJ Min 5.0 -40 -40 Max 18 125 150 Unit V C C 3.2 Absolute Maximum Ratings Parameter Supply voltage Short-term supply voltage Transient supply voltage Transient supply voltage Transient supply voltage CANH voltage Transient bus voltage Transient bus voltage Transient bus voltage DC voltage on pin LOAD DC voltage on pins TxD,MODE1,MODE0,RxD ESD capability of CANH Symbol VBAT VBAT.LD VBAT.TR1 VBAT.TR2 VBAT.TR3 VCANH VCANHTR1 VCANHTR2 VCANHTR3 VLOAD VDC VESDBUS Human body model Eq. to discharge 100pF with 1.5k Human body model Eq. to discharge 100pF with 1.5k At TA = 125 C in free air -55 -40 Load dump; t<500ms Jump start; t<1 min ISO 7637/1 pulse 1 [1] ISO 7637/1 pulses 2 [1] ISO 7637/1 pulses 3A, 3B VBAT<= 27V VBAT = 0V ISO 7637/1 pulse 1 [2] ISO 7637/1 pulses 2 [2] ISO 7637/1 pulses 3A, 3B [2] via RT > 2k -200 -40 -0.3 -4000 -200 -20 -40 -50 100 200 40 7 4000 -50 100 200 40 Condition Min -0.3 Max 18 40 27 Unit V V V V V V V V V V V V ESD capability of any other pins Maximum latch-up free current at any Pin Maximum power dissipation Thermal impedance Storage temperature Junction temperature [1] [2] VESD ILATCH Ptot JA TSTG TJ -2000 -500 2000 500 197 [3] 152 150 150 V mA mW K/W C C ISO 7637 test pulses are applied to VBAT via a reverse polarity diode and >1uF blocking capacitor . ISO 7637 test pulses are applied to CANH via a coupling capacitance of 1 nF. [3] 2 The application board shall be realized with a ground copper foil area > 200mm . TH8055 - Datasheet 3901008055 Page 7 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 3.3 Static Characteristics VBAT = 5.0 to 18V, TA = -40 to +125C, unless otherwise specified All voltages are refered to ground, positive currents flow into the IC. Parameter Operating supply voltage Undervoltage lock out Supply current, recessiv, all active modes Normal mode supply current, dominant High speed mode supply current, dominant Symbol VBAT VBATuv IBATN IBATN [3] IBATN [3] VBAT = 18V , TxD open VBAT = 18V MODE0=MODE1=H TxD=L, Rload = 270 VBAT = 18V MODE0=L,MODE1=H TxD=L, Rload = 100 VBAT = 18V MODE0=L,MODE1=H TxD=L, Rload = 270 VBAT = 18V ; TxD, RxD, MODE0, MODE1 open; PIN CANH Bus output voltage Fixed Wakeup Output High Voltage Offset Wakeup Output High Voltage Recessive state output voltage Bus short circuit current Bus leakage current during loss of ground Bus leakage current, bus positive Bus input threshold Fixed Wakeup Input High Voltage Threshold Offset Wakeup Input High Voltage Threshold Voh RL > 100, Normal, high-speed mode 5V < VBAT < 27V Wake-up mode, RL>270, 11.2V < VBAT < 27V 3.65 4.55 V Condition PIN VBAT 5 4.5 3.5 18.5 45 12 18 4.95 5 22 55 V V mA mA mA Min Typ Max Unit Wake up mode supply current, dominant Sleep mode supply current IBATW [3] IBATS 45 30 55 60 mA A VohWuFix 9.8 VBAT - 1.5 12 VBAT 0.20 V V V mA A A V V V VohWuOffset Wake-up mode, RL > 270, 5.5V < VBAT < 11.2V Vol -ICAN_SHORT ILKN_CAN[1] ILKP_CAN Vih VihWuFix[2] VihWuOffset[2] Recessive state or sleep mode, Rload = 9.1 k, VBAT=27V VCANH = 0V, VBAT = 27V TxD = 0V Loss of ground, VCANH = 0V TxD high; VCANH = 0V , VBAT = 27V Normal, high-speed mode , VBAT = 27V Sleep mode 11.2 < VBAT < 27V Sleep mode 5 < VBAT < 11.2V 40 -50 -10 1.8 6.15 VBAT-4.3 150 10 10 2.2 8.1 VBAT-3.25 TH8055 - Datasheet 3901008055 Page 8 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver Parameter Voltage on switched ground pin Voltage on switched ground pin Load resistance during loss of battery High level input voltage Low level input voltage TxD pull up current MODE0&1 pull down current Symbol VLOAD VLOAD_LOB RLOAD_LOB Vih Vil -IIL_TXD Iih_MODE0 Condition PIN LOAD ILOAD = 5mA ILOAD = 7mA , VBAT = 0V VBAT=0, RLOAD=2K, VCANH=5V 5 < VBAT < 27V 5 < VBAT < 27V TxD = L, MODE0 & 1 = H 5 < VBAT < 27V MODE0&1=H 5 < VBAT < 27V PIN RXD Low level output voltage High level output leakage RxD output current Vol_rxd Iih_rxd Irxd IRxD = 2mA VRxD=5V VRxD=5V -10 0.4 10 70 V A mA 15 15 1.6 3.4 1.6 50 50 0.5 1 2.4 V V k V V A A Min Typ Max Unit PIN TXD,MODE0,MODE1 Overtemperature protection Thermal shutdown [3] Thermal recovery [3] TSD TREC 155 130 180 150 C C [1] [2] [3] T Leakage current in case of Loss of ground is the summary of both currents ILKN_CAN and ILKN_RTH . Wake up is detected at the minimum of VihWuFix or VihWuOffset. hresholds not tested in production, guaranteed by design TH8055 - Datasheet 3901008055 Page 9 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 3.4 Dynamic Characteristics All dynamic values of the table below refer to the timing diagrams. (5V VBAT 27V, -40C TA 125C, unless otherwise specified) Parameter Transmit delay in normal & wake up mode, bus rising edge Transmit delay in wake up mode, bus rising edge Symbol tT Condition bus load 15nF/270, measured from 50% TXD high level to VCANH = 3V bus load 15nF/270, measured from 50% TXD high level to VCANH=8.9V bus load 15nF/100, measured from 50% TXD high level to VCANH= 3V, 5 < VBAT < 18V, 0C < TA < 125C bus load 15nF/270, measured from 50% TXD high level to VCANH= 1V bus load 15nF/270, measured from 50% TXD high level to VCANH= 1V bus load 15nF/100, measured from 50% TXD high level to VCANH= 1V , 5 < VBAT < 18V CANH to RxD, measured from VCANH=2V , RxD=H to L CANH to RxD, measured from VCANH=2V , RxD=L to H CANH to RxD, measured from VCANH=2V; RxD=H to L See Figure 3 See Figure 4 Normal and high speed mode Wake up mode Min 3 Typ Max 6.3 Unit s tT 3 18 s Transmit delay in high-speed mode, bus rising edge tTHS 0.2 1.5 s Transmit delay in normal mode, bus falling edge Transmit delay in wake up mode, bus falling edge [1] Transmit delay in high-speed mode, bus falling edge Receive delay , all active modes Receive delay , all active modes tT 3 8.25 s tT 3 13.7 s tTHS 0.2 3 s tDR tRD 0.3 0.3 1 1 s s Input minimum puls length, all activ modes Wakeup filter time delay Receive blanking time after TxD L-H transition TxD timeout reaction time TxD timeout reaction time Delay from Normal to High Speed & Wake Up Mode Delay from High Speed & Wake Up to Normal Mode Delay from Normal to Sleep Mode Delay from Sleep to Normal & Wake Up Mode trp tWUF trb ttout ttoutwu tdnhs tdhsn tdns tdsn 0.2 10 0.5 12 20 1 70 6 s s s ms ms 30 30 500 50 s s s s [1] The fall time can exceed the maximum value under max load conditions (32 nodes and max [270Ohm/15nF]). In this case the limit is 14.5s. TH8055 - Datasheet 3901008055 Page 10 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 3.5 Bus loading requirements Parameter Number of system nodes Network distance between any two ECU nodes Node Series Inductor Resistance (if required) EMC Inductor voltage drop Ground Offset Voltage Device Capacitance (unit load) Network Total Capacitance Device Resistance (unit load) Device Resistance (min load) Network Total Resistance Network Time Constant[1] Network Time Constant in high speed mode High Speed Mode Network Resistance to GND Bus length Rind Vind Vgoff Cul Ctl Rul Rmin Rtl 198 396 9009 2000 270 1 4596 4 1.5 100 185 9100 220 Symbol Min 2 Typ Max 32 60 2.3 0.3 0.8 242 13700 9191 m Ohm V V pF pF Ohm Ohm Ohm s s Ohm Unit Rload [1] The network time constant incorporates the bus wiring capacitance. The minimum value is selected to limit radiated emission. The maximum value is selected to ensure proper communication modes. Not all combinations of R and C are possible. TH8055 - Datasheet 3901008055 Page 11 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 3.6 Timing Diagrams VTxD 50% t tT VCANH 70% 30% t tR tD tF tDR VRxD 50% t Figure 2 - Input/Output Timing VCANH VIHWU VIH t twu tWU tWUF VRxD tWU < tWUF wake up interrupt t Figure 3 - Wake Up Filter Time Delay TH8055 - Datasheet 3901008055 Page 12 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver VTxD 50% t VCANH Vih t VRxD 50% t tRB Figure 4 - Receive Blanking Time TH8055 - Datasheet 3901008055 Page 13 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 4. Application Circuitry 1N4001 VBAT 10 100nF VIN Voltage Regulator (e.g.NCV8502) VOUT 10 100nF 10k 2.7kOhm 100nF RESET VBAT RxD 4 5 7 MODE0 MODE1 2 CANH 47H CAN controller CAN 9.1kOhm 220pF TH8055 3 ESD Protection TPSMA16A or MMBZ27VCLT1 or equivalent - if needed TxD 6 1 8 Copper Foil Heat Sink >225mm2 LOAD GND Figure 5 - Application Circuitry TH8055 - Datasheet 3901008055 Page 14 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 5. Pin Description TxD MODE0 MODE1 RXD 1 2 8 7 GND CANH LOAD VBAT TH8055 3 4 6 5 Pin 1 2 3 4 5 6 7 8 Name TXD MODE0 MODE1 RXD VBAT LOAD CANH GND IO-Typ I I I O P O I/O P Description Transmit data from core to CAN Operating mode select input 0 Operating mode select input 1 Receive data from CAN to core Battery input voltage Resistor load (loss of ground low side switch ) Single wire CAN bus pin Ground TH8055 - Datasheet 3901008055 Page 15 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 6. Mechanical Specification Small Outline Integrated Circiut (SOIC), SOIC 8, 150 mil A1 B C D E e H h L A 0 8 0 8 ZD A2 All Dimension in mm, coplanarity < 0.1 mm min max min max 0.10 0.25 0.004 0.0098 0.36 0.46 0.19 0.25 4.80 4.98 0.189 0.196 3.81 3.99 0.150 0.157 1.27 5.80 6.20 0.25 0.50 0.41 1.27 0.016 0.050 1.52 1.72 0.060 0.068 0.53 1.37 1.57 0.054 0.062 All Dimension in inch, coplanarity < 0.004" 0.014 0.0075 0.018 0.0098 0.050 0.2284 0.0099 0.244 0.0198 0.021 TH8055 - Datasheet 3901008055 Page 16 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 7. Tape and Reel Specification 7.1 Tape Specification max. 10 max. 10 IC pocket R mi n. Top View Sectional View T2 D0 T G1 K0 B1 S1 G2 T1 Cover Tape P1 B0 P0 P2 E < A0 > F W D1 Abw ickelrichtung Standard Reel with diameter of 13" Package SOIC8 D0 1.5 +0.1 E 1.75 0.1 P0 4.0 0.1 P2 2.0 0.05 Tmax 0.6 Parts per Reel 2500 T1 max 0.1 G1 min 0.75 G2 min 0.75 B1 max 8.2 Width 12 mm D1 min 1.5 F 5.5 0.05 P1 4.0 0.1 Rmin 30 Pitch 8 mm T2 max 6.5 W 12.0 0.3 A0, B0, K0 can be calculated with package specification. Cover Tape width 9.2 mm. TH8055 - Datasheet 3901008055 Page 17 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 7.2 Reel Specification W2 W1 B* D* A C N Amax 330 Width of half reel 4 mm 8 mm B* 2.0 0.5 Nmin 100,0 100,0 C 13.0 +0,5/-0,2 W1 4,4 8,4 D*min 20.2 W2 max 7,1 11,1 TH8055 - Datasheet 3901008055 Page 18 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver 8. Assembly Information This Melexis device is classified and qualified regarding soldering technology, solderability and moisture sensitivity level, as defined in this specification, according to following test methods: IPC/JEDEC J-STD-020 Moisture/Reflow Sensitivity Classification For Nonhermetic Solid State Surface Mount Devices (classification reflow profiles according to table 5-2) EIA/JEDEC JESD22-A113 Preconditioning of Nonhermetic Surface Mount Devices Prior to Reliability Testing (reflow profiles according to table 2) CECC00802 Standard Method For The Specification of Surface Mounting Components (SMDs) of Assessed Quality EIA/JEDEC JESD22-B106 Resistance to soldering temperature for through-hole mounted devices EN60749-15 Resistance to soldering temperature for through-hole mounted devices MIL 883 Method 2003 / EIA/JEDEC JESD22-B102 Solderability For all soldering technologies deviating from above mentioned standard conditions (regarding peak temperature, temperature gradient, temperature profile etc) additional classification and qualification tests have to be agreed upon with Melexis. The application of Wave Soldering for SMD's is allowed only after consulting Melexis regarding assurance of adhesive strength between device and board. Based on Melexis commitment to environmental responsibility, European legislation (Directive on the Restriction of the Use of Certain Hazardous substances, RoHS) and customer requests, Melexis has installed a roadmap to qualify their package families for lead free processes also. Various lead free generic qualifications are running, current results on request. For more information on Melexis lead free statement http://www.melexis.com/html/pdf/MLXleadfree-statement.pdf see quality page at our website: 9. Disclaimer Devices sold by Melexis are covered by the warranty and patent indemnification provisions appearing in its Term of Sale. Melexis makes no warranty, express, statutory, implied, or by description regarding the information set forth herein or regarding the freedom of the described devices from patent infringement. Melexis reserves the right to change specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with Melexis for current information. This product is intended for use in normal commercial applications. Applications requiring extended temperature range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are specifically not recommended without additional processing by Melexis for each application. The information furnished by Melexis is believed to be correct and accurate. However, Melexis shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interrupt of business or indirect, special incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of Melexis' rendering of technical or other services. (c) 2002 Melexis NV. All rights reserved. TH8055 - Datasheet 3901008055 Page 19 of 20 May 2004 Rev 005 TH8055 Single Wire CAN Transceiver Your notes For the latest version of this document. Go to our website at www.melexis.com Or for additional information contact Melexis Direct: Europe and Japan: Phone: +32 1367 0795 E-mail: sales_europe@melexis.com All other locations: Phone: +1 603 223 2362 E-mail: sales_usa@melexis.com QS9000, VDA6.1 and ISO14001 Certified May 2004 Rev 005 TH8055 - Datasheet 3901008055 Page 20 of 20 |
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