PDF TJA1055 Data sheet ( Hoja de datos )

Número de pieza	TJA1055
Descripción	Enhanced Fauit Tolerant CAN Transceiver
Fabricantes	NXP Semiconductors
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No Preview Available ! www.DataSheet4U.com TJA1055 Enhanced fault-tolerant CAN transceiver Rev. 02 — 30 October 2006 Preliminary data sheet 1. General description The TJA1055 is the interface between the protocol controller and the physical bus wires in a Controller Area Network (CAN). It is primarily intended for low-speed applications up to 125 kBd in passenger cars. The device provides differential receive and transmit capability but will switch to single-wire transmitter and/or receiver in error conditions. The TJA1055 is the enhanced version of the TJA1054 and TJA1054A. TJA1055 has the same functionality but in addition offering a number of improvements. The most important improvements of the TJA1055 with respect to the TJA1054 and TJA1054A are: • Improved ElectroStatic Discharge (ESD) performance • Lower current consumption in sleep mode • Wake-up signalling on RXD and ERR without VCC active • 3 V interfacing with microcontroller possible with TJA1055T/3 2. Features 2.1 Optimized for in-car low-speed communication I Pin-to-pin compatible with TJA1054 and TJA1054A I Baud rate up to 125 kBd I Up to 32 nodes can be connected I Supports unshielded bus wires I Very low ElectroMagnetic Emission (EME) due to built-in slope control function and a very good matching of the CANL and CANH bus outputs I Very high ElectroMagnetic Immunity (EMI) in normal operating mode and in low power modes I Fully integrated receiver ﬁlters I Transmit Data (TxD) dominant time-out function I High ESD robustness N ±8 kV Electrostatic Discharge (ESD) protection Human Body Model (HBM) for off-board pins N ±6 kV Electrostatic Discharge (ESD) protection IEC 61000-4-2 for off-board pins I Low-voltage microcontroller support 2.2 Bus failure management I Supports single-wire transmission modes with ground offset voltages up to 1.5 V I Automatic switching to single-wire mode in the event of bus failures, even when the CANH bus wire is short-circuited to VCC 1 page www.DataSheet4U.com NXP Semiconductors TJA1055 Enhanced fault-tolerant CAN transceiver 7. Functional description The TJA1055 is the interface between the CAN protocol controller and the physical wires of the CAN bus (see Figure 9 and Figure 10). It is primarily intended for low-speed applications, up to 125 kBd, in passenger cars. The device provides differential transmit capability to the CAN bus and differential receive capability to the CAN controller. To reduce EME, the rise and fall slopes are limited. This allows the use of an unshielded twisted pair or a parallel pair of wires for the bus lines. Moreover, the device supports transmission capability on either bus line if one of the wires is corrupted. The failure detection logic automatically selects a suitable transmission mode. In normal operating mode (no wiring failures) the differential receiver is output on pin RXD (see Figure 1). The differential receiver inputs are connected to pins CANH and CANL through integrated ﬁlters. The ﬁltered input signals are also used for the single-wire receivers. The receivers connected to pins CANH and CANL have threshold voltages that ensure a maximum noise margin in single-wire mode. A timer function (TxD dominant time-out function) has been integrated to prevent the bus lines from being driven into a permanent dominant state (thus blocking the entire network communication) due to a situation in which pin TXD is permanently forced to a LOW level, caused by a hardware and/or software application failure. If the duration of the LOW level on pin TXD exceeds a certain time, the transmitter will be disabled. The timer will be reset by a HIGH level on pin TXD. 7.1 Failure detector The failure detector is fully active in the normal operating mode. After the detection of a single bus failure the detector switches to the appropriate mode (see Table 4). The differential receiver threshold voltage is set at −3.2 V typical (VCC = 5 V). This ensures correct reception with a noise margin as high as possible in the normal operating mode and in the event of failures 1, 2, 5 and 6a. These failures, or recovery from them, do not destroy ongoing transmissions. The output drivers remain active, the termination does not change and the receiver remains in differential mode (see Table 4). Failures 3, 3a and 6 are detected by comparators connected to the CANH and CANL bus lines. Failures 3 and 3a are detected in a two-step approach. If the CANH bus line exceeds a certain voltage level, the differential comparator signals a continuous dominant condition. Because of inter operability reasons with the predecessor products TJA1054 and TJA1054A, after a ﬁrst time-out the transceiver switches to single-wire operation through CANH. If the CANH bus line is still exceeding the CANH detection voltage for a second time-out, the TJA1055 switches to CANL operation; the CANH driver is switched off and the RTH bias changes to the pull-down current source. The time-outs (delays) are needed to avoid false triggering by external RF ﬁelds. TJA1055_2 Preliminary data sheet Rev. 02 — 30 October 2006 © NXP B.V. 2006. All rights reserved. 5 of 28 5 Page www.DataSheet4U.com NXP Semiconductors TJA1055 Enhanced fault-tolerant CAN transceiver 10. Static characteristics Table 8. Static characteristics VCC = 4.75 V to 5.25 V; VBAT = 5.0 V to 40 V; VSTB = VCC; Tvj = −40 °C to +150 °C; all voltages are deﬁned with respect to ground; positive currents ﬂow into the device; unless otherwise speciﬁed.[1] Symbol Parameter Conditions Min Typ Max Unit Supplies (pins VCC and BAT) VCC supply voltage VCC(stb) supply voltage for forced standby mode (fail-safe) 4.75 - 3.5 - 5.25 V 4.5 V ICC supply current normal operating mode; VTXD = VCC (recessive) normal operating mode; VTXD = 0 V (dominant); no load low power modes at VTXD = VCC Tamb = −40 °C to +85 °C Tamb = +85 °C to +125 °C VBAT battery supply voltage no time limit operating mode <tbd> <tbd> 0 0 −0.3 5.0 6 13 0 0 - - <tbd> <tbd> mA mA 5 <tbd> +40 40 µA µA V V load dump - - 58 V IBAT Vpof(BAT) battery supply current power-on ﬂag voltage on pin BAT low power mode at VRTL = VWAKE = VINH = VBAT VBAT = 14 V VBAT = 5 V to 40 V normal operating mode at VRTL = VWAKE = VINH = VBAT VBAT = 5 V to 40 V low power modes power-on ﬂag set <tbd> <tbd> 25 - <tbd> - 150 - <tbd> 100 µA µA 300 µA 4V power-on ﬂag not set 5- - V Isup(tot) total supply current Pins STB, EN and TXD low power modes; VCC = 5 V; VBAT = VWAKE = VINH = 12 V - 25 <tbd> µA VIH HIGH-level input voltage 2- 7V VIL LOW-level input voltage −0.3 - +0.8 V IIH HIGH-level input current pins STB and EN pin TXD (TJA1055T) VI = 4 V VI = 3 V - <tbd> 9 −80 20 <tbd> µA µA pin TXD (TJA1055T/3) normal operating mode; VI = 2.4 V low power mode; VI = 2.4 V <tbd> <tbd> 9 0.9 20 <tbd> µA µA TJA1055_2 Preliminary data sheet Rev. 02 — 30 October 2006 © NXP B.V. 2006. 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