TLE6251DS Infineon Technologies, TLE6251DS Datasheet

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TLE6251DS

Manufacturer Part Number
TLE6251DS
Description
IC CAN-TRANSCEIVER 1MBAUD DSO-8
Manufacturer
Infineon Technologies
Type
Transceiverr
Datasheet

Specifications of TLE6251DS

Package / Case
DSO-8
Number Of Drivers/receivers
1/1
Protocol
CAN
Voltage - Supply
4.75 V ~ 5.25 V
Mounting Type
Surface Mount
Product
Controller Area Network (CAN)
Number Of Transceivers
1
Data Rate
1 MBd
Supply Voltage (max)
5.25 V
Supply Voltage (min)
4.75 V
Supply Current (max)
10 mA
Maximum Operating Temperature
+ 150 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
SP000069399

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D a t a S h e e t , R e v . 3 . 1 , A u g . 2 0 0 7
T L E 6 2 5 1 D S
H i g h S p e e d C A N - T r a n s c e i v e r w i t h B u s w a k e - u p
A u t o m o t i v e P o w e r

Related parts for TLE6251DS

TLE6251DS Summary of contents

Page 1

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Page 2

... Infineon Technologies Office. Infineon Technologies components may be used in life-support devices or systems only with the express written approval of Infineon Technologies failure of such components can reasonably be expected to cause the failure of that life-support device or system or to affect the safety or effectiveness of that device or system. Life support devices or systems are intended to be implanted in the human body or to support and/or maintain and sustain and/or protect human life ...

Page 3

... CAN bus in low power mode. This supports networks with partially un-powered nodes. The TLE6251DS has two operation modes, the normal and the stand-by mode. These modes can be chosen by the STB pin. If the TLE6251DS is in stand-by mode and a message on the bus is Type TLE6251DS ...

Page 4

... TLE6251DS changes the level at the RxD pin corresponding to the bus signal (wake-up flag). The TLE6251DS is also designed to withstand the severe conditions of automotive applications and to support 12 V and 24 V applications. The IC is based on the Smart Power Technology SPT circuitry in accordance with DMOS power devices existing on the same monolithic circuit. ...

Page 5

... Functional Block Diagram Wake-Up Logic 7 CANH 6 CANL 5 SPLIT 2 GND Figure 2 Functional Block Diagram Data Sheet TLE6251DS Driver Output Temp.- Stage Protection = 5 TLE6251DS 8 Mode Control STB Logic TxD + timeout Receiver MUX 4 RxD AEB03388.VSD Rev. 3.1, 2007-08-20 ...

Page 6

... Application Information The TLE6251DS has two operation modes, the normal and the standby mode. These modes can be controlled with the STB pin (see up there is no signal applied to STB or STB = HIGH, the standby mode is activated. To transfer the TLE6251DS into the normal mode, STB has to be switched to LOW. ...

Page 7

... Transmission The signal from the µC is applied to the TxD input of the TLE6251DS. Now the bus driver switches the CANH/L output stages to transfer this input signal to the CAN bus lines. TxD Time-out Feature If the TxD signal is dominant for a time transmission of the signal at the bus. This is realized to prevent the bus from being blocked permanently dominant due to an error ...

Page 8

... In normal mode the split pin is used to stabilize the recessive common mode signal. Standby Mode The standby mode is designed to switch the TLE6251DS into a low power mode with minimum current consumption. The driving stages and the receiver are deactivated. Only the relevant circuitry to guarantee a correct handling of the CAN bus wake-up is still active. This wake-up receiver is also designed to show an excellent immunity against electromagnetic noise (EMI) ...

Page 9

... TLE6251DS. If the dominant signal switches back to recessive level, e.g. failure removed, a wake-up via CAN bus (recessive to dominant signal detected) is possible. V BUS DIFF (CANH-CANL STB (Mode Normal Mode (STB = LOW) RxD V CC Figure 5 Go-To Standby Mode during Bus Dominant Condition Wake-up via CAN Message During standby mode, a dominant CAN message on the bus longer than the filtering time leads to the activation of the wake-up ...

Page 10

... Data Sheet CANH CANL V V DIFF(d) DIFF( WU2 WU1 0 0 SPLIT. CC Figure 7. The split termination for the left and 10 TLE6251DS t V DIFF(d) V DIFF( AET03395_TO1.VSD Rev. 3.1, 2007-08-20 ...

Page 11

... The CANH/CANL pins remain high ohmic, if the transceiver is un-supplied. Data Sheet Ω 60 Split C AN Split Term ination Bus T erm ination Ω kΩ kΩ Split 1.5 1.5 Term ination at Stub SPLIT E6251 G TLE6251DS LE6251 G/D S Ω 60 SPLIT 10 Ω AEA 03390 .VSD Rev. 3.1, 2007-08-20 ...

Page 12

... CAN diff V -27 40 SPLIT ESD ESD T -40 150 j 12 TLE6251DS Unit Remarks V – V – V CANH - CANL < |40 V| CANH - SPLIT < |40 V| CANL - SPLIT < | – < < 5 human body model (100 pF via 1.5 kΩ) kV human body model (100 pF via 1.5 kΩ) °C – ...

Page 13

... Thermal shutdown hyst. 1) Calculation of the junction temperature Data Sheet Symbol Limit Values Min. Max. V 4.75 5. -40 150 j R – 185 thj-a T 150 190 jsD T ∆ – × amb thj-a 13 TLE6251DS Unit Remarks V – °C – 1) K/W °C – K – Rev. 3.1, 2007-08-20 ...

Page 14

... TD,H V – – TD – 200 TD hys V 2.0 – STB,H V – – STB STB V – 200 STB hys 14 TLE6251DS Unit Remarks Max recessive state TxD dominant state TxD µA 30 stand-by mode; TxD = high 0.8 × µA – stand-by mode V = 0.2 × ...

Page 15

... diff V 2.0 2.5 CANL/H V -500 – diff V 0.5 – CANL V 2.75 – CANH 15 TLE6251DS Unit Remarks Max. 0.7 × V normal mode; V -500 µA < SPLIT 500 µA 0.55× V normal mode Load CC µA 5 standby mode; V -22 V < SPLIT Ω – – ...

Page 16

... CANLsc I -200 -80 CANHsc CANH,L,lk t – 150 d(L),TR t – 150 d(H),TR t – 50 d(L),T t – 50 d(H),T t – 100 d(L),R t – 100 d(H),R t 0.75 3 WU1 16 TLE6251DS Unit Remarks Max TxD 200 CANLshort V - CANHshort V µ < CANH,L C 255 pF Ω ...

Page 17

... TxD permanent dominant disable time Data Sheet = 60 Ω; -40 °C < T < 150 °C; all voltages with respect to ground; j Symbol Limit Values Min. Typ. t 0.75 3 WU2 t 0.3 – TxD 17 TLE6251DS Unit Remarks Max µ WU2 d(H),R see Figure 6 1.0 ms – Rev. 3.1, 2007-08- ...

Page 18

... Diagrams 47 pF Figure 8 Test Circuits for Dynamic Characteristics Data Sheet STB 7 CANH TxD SPLIT Ω 60 RxD 6 CANL V CC GND 2 18 TLE6251DS 100 nF AEA03392.VSD Rev. 3.1, 2007-08-20 ...

Page 19

... V TxD V µC GND V DIFF V RxD V C µ GND Figure 9 Timing Diagrams for Dynamic Characteristics Data Sheet t t d(L DIFF(d) t d(L µ t d(L TLE6251DS t d(H DIFF( d(H µ d(H), TR AET02926 Rev. 3.1, 2007-08-20 ...

Page 20

... TLE 4276 TLE 4271 100 nF TL E6251 SPLIT 4270 100 nF 20 TLE6251DS µP w ith On C hip odule e.g . C164 C C167 C 100 100 100 µF µ µP w ith On C hip odule e.g . C164 C C167 100 100 µ AEA 03387 .VSD Rev. 3.1, 2007-08-20 ...

Page 21

... RoHS-Compliant (i.e Pb-free finish on leads and suitable for Pb-free soldering according to IPC/JEDEC J-STD-020). You can find all of our packages, sorts of packing and others in our Infineon Internet Page “Products”: http://www.infineon.com/products. SMD = Surface Mounted Device Data Sheet TLE6251DS 0.35 x 45˚ 1) 0.64 ±0.25 6 ±0.2 0 GPS01181 Dimensions in mm Rev. 3.1, 2007-08-20 ...

Page 22

... Revision History Version Date 2007-08-20 RoHS-compliant version of the TLE6251DS Rev. 3.1 Data Sheet Changes • All pages: Infineon logo updated • Page 3: “added AEC qualified” and “RoHS” logo, “Green Product (RoHS compliant)” and “AEC qualified” statement added to ...

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