TLE6250 High Speed CAN-Transceiver Automotive Power Edi
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Data Sheet, Rev. 4.0, April 2008
TLE6250
High Speed CAN-Transceiver
Automotive Power
Edition 2008-04-28 Published Infineon Technologies 81726 Munich, Germany
2004 Infineon Technologies
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High Speed CAN-Transceiver
TLE6250
Features data transmission rate MBaud Receive-only Mode Stand-by Mode Suitable applications Excellent performance (very high immunity very emission) Version microcontrollers pins short circuit proof ground battery voltage Overtemperature protection Very wide temperature range (-40 Green Product (RoHS compliant) Qualified
Description CAN-transceiver family TLE6250 (TLE6250G TLE6250GV33) monolithic integrated circuits that available bare well PG-DSO-8 package. optimized high speed differential mode data transmission automotive industrial applications they compatible ISO/DIS 11898. They work interface between protocol controller physical differential both, systems. based Smart Power Technology SPT® which allows bipolar CMOS control circuitry accordance with DMOS power devices existing same monolithic circuit. TLE6250G designed withstand severe conditions automotive applications provides excellent performance. Note: There versions available (refer next page).
Type TLE6250G TLE6250C TLE6250GV33 TLE6250CV33
Data Sheet
Package PG-DSO-8 (chip) PG-DSO-8 (chip)
Rev. 4.0, 2008-04-28
TLE6250
TLE6250G logic version: RxD, TxD, INH, Control pins (RM, INH) operation modes: Normal Mode, Stand-by Mode Receive Only Mode. TLE6250GV33 logic version (logic voltage adaptive within range RxD, TxD, INH. control (INH) operation modes: Normal Mode Standby Mode. Configuration
E6250
AEP03320.VSD
Figure
Configuration TLE6250G (top view)
LE6250GV
AEP03321.VSD
Figure
Configuration TLE6250GV33 (top view)
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table Table
Definitions Functions TLE6250G Symbol Function transmit data input; pull-up, dominant state Ground Supply input receive data output; dominant state, integrated pull-up Receive-only input; control input, pull-up, activate RxD-only mode line I/O; dominant state High line I/O; HIGH dominant state Inhibit Input; control input, pull, normal mode
CANL CANH
Definitions Functions TLE6250GV33 Symbol Function transmit data input; pull-up, dominant state Ground Supply input receive data output; dominant state, integrated pull-up Logic supply input; microcontroller logic supply connected here! digital I/Os TLE6250GV33 adopt connected microcontroller logic supply V33V line I/O; dominant state High line I/O; HIGH dominant state Inhibit Input; control input, pull, normal mode
V33V
CANL CANH
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Functional Block Diagram
E6250
Output Stage
river pProtection ontrol
eceiver
03311 .VSD
Figure
Block Diagram TLE6250G
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
E6250 GV33
Output Stage
river pProtection ontrol
eceiver
03312 .VSD
Figure
Block Diagram TLE6250GV33
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Application Information
TLE6250G
Normal Mode
Stand-by Mode
Receive-only Mode
AED02924
Normal Mode Stand-by Mode
AEA03327.VSD
TLE6250GV33
Figure
Mode State Diagram
Both, TLE6250G well TLE6250C offer three different operation modes (see Figure controlled pin. TLE6250GV33 offers only modes, controlled (GV33) respectively.
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
normal mode device able receive transmit messages whereas receive-only mode signals input transmitted bus. receive-only mode used diagnostic purposes check connections between nodes) well prevent being blocked faulty permanent dominant input signal. stand-by mode power mode that disables both, receiver well transmitter. case receive-only feature used left open. When stand-by mode used connected ground level order switch TLE6250G normal mode. Application Information Versions TLE6250GV33 used both; microcontroller logic supply, shown Figure Don't apply external resistors between power supply this pin. This cause voltage drop reduce available voltage this pin.
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Application with supply
E6250
4476
03300 .VSD
Application with supply
E6250
4270
03299 .VSD
Figure
Application Circuits TLE6250GV33 Used Logic
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Application with separate power supplies, applications with switchable transceiver supply
E6250
4270
4270
13299 .VSD
Figure (cont.) Application Circuits TLE6250GV33 Used Logic
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Electrical Characteristics TLE6250G version) Table Parameter Voltages Supply voltage input voltage (CANH, CANL) Logic voltages INH, TxD, Electrostatic discharge voltage CANH, CANL Electrostatic discharge voltage Temperatures Junction temperature Absolute Maximum Ratings Symbol Limit Values Min. Max. human body model (100 human body model (100 Unit Remarks
VCANH/L VESD VESD
-0.3 -0.3
Note: Maximum ratings absolute ratings; exceeding these values cause irreversible damage integrated circuit. Table Parameter Supply voltage Junction temperature Thermal Resistances Junction ambient Thermal shutdown temperature Operating Range Symbol Limit Values Min. Max. hysteresis Unit Remarks
Rthj-a TjsD
Thermal Shutdown (junction temperature)
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics
VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Current Consumption Current consumption Current consumption Current consumption Current consumption Receiver Output HIGH level output current level output current Transmission Input HIGH level input voltage threshold level input voltage threshold pull-up resistance Inhibit Input (pin INH) HIGH level input voltage threshold level input voltage threshold pull-up resistance Symbol Limit Values Min. Typ. Max. Unit Remarks
ICC,stb
recessive state; VTxD dominant state; VTxD receive-only mode; stand-by mode; high
IRD,H IRD,L
VCC, Vdiff VCC, Vdiff
recessive state dominant state stand-by mode; normal mode
VTD,H VTD,L VINH,H VINH,L RINH
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics (cont'd)
VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Symbol Limit Values Min. Typ. Max. Receive only Input (pin version only) HIGH level input voltage threshold level input voltage threshold pull-up resistance Receiver Differential receiver threshold voltage, recessive dominant edge Differential receiver threshold voltage dominant recessive edge Common Mode Range Differential receiver hysteresis CANH, CANL input resistance Differential input resistance Unit Remarks
VRM,H VRM,L Vdiff,d
normal mode; receive-only mode (VCANH, VCANL) Vdiff VCANH VCANL (VCANH, VCANL) Vdiff VCANH VCANL
0.75 0.90
Vdiff,r
0.50 0.60
recessive state recessive state
Vdiff,hys Rdiff
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics (cont'd)
VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Transmitter CANL/CANH recessive output voltage CCANH, CANL recessive output voltage difference Vdiff VCANH VCANL, load2) CANL dominant output voltage CANH dominant output voltage CANH, CANL dominant output voltage difference Vdiff VCANH VCANL Symbol Limit Values Min. Typ. Max. Unit Remarks
VCANL/H Vdiff
VTxD VTxD
0.05
VCANL VCANH Vdiff
VTxD VTxD VTxD VCANLshort VCANLshort VCANHshort VCANHshort VCANH VCANL VCANH VCANL VCANH VCANL VCANH VCANL
CANL short circuit current ICANLsc CANH short circuit current ICANHsc CANH short circuit current ICANHsc Output current
-200 -120 -120
ICANH,lk
-300 -400 -100 -150
Output current
ICANH,lk
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics (cont'd)
VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Symbol Limit Values Min. Typ. Max. Dynamic CAN-Transceiver Characteristics Propagation delay TxD-to- td(L),TR (recessive dominant) Propagation delay TxD-to- td(H),TR HIGH (dominant recessive) Propagation delay dominant Propagation delay HIGH recessive Propagation delay dominant Unit Remarks
td(L),T
td(H),T
td(L),R
Propagation delay recessive HIGH
td(H),R
CRxD CRxD CRxD CRxD
Vdiff VCANH VCANL Deviation from ISO/DIS 11898
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Electrical Characteristics TLE6250GV33 (3.3 version) Table Parameter Voltages Supply voltage supply input voltage (CANH, CANL) Logic voltages INH, TxD, Electrostatic discharge voltage CANH, CANL Electrostatic discharge voltage Temperatures Junction temperature Absolute Maximum Ratings Symbol Limit Values Min. Max. human body model (100 human body model (100 Unit Remarks
V33V VCANH/L VESD VESD
-0.3 -0.3 -0.3
Note: Maximum ratings absolute ratings; exceeding these values cause irreversible damage integrated circuit. Table Parameter Supply voltage supply voltage Junction temperature Thermal Resistances Junction ambient Thermal shutdown temperature Operating Range Symbol Limit Values Min. Max. hysteresis Unit Remarks
V33V Rthj-a TjsD
Thermal Shutdown (junction temperature)
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics
(3.0 V33V 5.5V version); VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Symbol Limit Values Min. Current Consumption (3.3 version) Current consumption Current consumption Current consumption Current consumption Receiver Output HIGH level output current level output current HIGH level input voltage threshold level input voltage threshold Inhibit Input (pin INH) HIGH level input voltage threshold level input voltage threshold Typ. Max. recessive state; Unit Remarks
ICC+33V ICC+33V
VTxD V33V
dominant state; VTxD stand-by mode, high
I33V ICC+33V,stb
IRD,H IRD,L
V33V, Vdiff V33V, Vdiff
recessive state dominant state stand-by mode; normal mode;
Transmission Input
VTD,H VTD,L
0.55
V33V V33V
V33V
0.45
V33V
pull-up resistance
VINH,H VINH,L
0.55
V33V V33V
V33V
0.45
V33V
pull-up resistance RINH
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics (cont'd)
(3.0 V33V 5.5V version); VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Receiver Differential receiver Vdiff,d threshold voltage, recessive dominant edge Differential receiver Vdiff,r threshold voltage, dominant recessive edge Common Mode Range Differential receiver hysteresis CANH, CANL input resistance Differential input resistance 0.75 0.90 (VCANH, VCANL) Vdiff VCANH VCANL (VCANH, VCANL) Vdiff VCANH VCANL Symbol Limit Values Min. Typ. Max. Unit Remarks
0.50
0.60
recessive state recessive state
Vdiff,hys Rdiff
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Table
Electrical Characteristics (cont'd)
(3.0 V33V 5.5V version); VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Transmitter CANL/CANH recessive output voltage CANH, CANL recessive output voltage difference Vdiff VCANH VCANL, load2) CANL dominant output voltage CANH dominant output voltage CANH, CANL dominant output voltage difference Vdiff VCANH VCANL CANL short circuit current CANH short circuit current CANH short circuit current Output current Symbol Limit Values Min. Typ. Max. Unit Remarks
VCANL/H
VTxD V33V
Vdiff
0.05
VTxD V33V
VCANL VCANH Vdiff
VTxD VTxD VTxD
ICANLsc ICANHsc ICANHsc ICANH/L,lk
-200
-120 -120 -300 -100
-400 -150
VCANLshort VCANLshort VCANHshort VCANHshort VCANH VCANL VCANH =VCANL VCANH VCANL VCANH VCANL
Rev. 4.0, 2008-04-28
Output current
ICANH/L,lk
Data Sheet
TLE6250
Table
Electrical Characteristics (cont'd)
(3.0 V33V 5.5V version); VINH VINH,ON; voltages with respect ground; positive current flowing into pin; unless otherwise specified. Parameter Symbol Limit Values Min. Propagation delay TxD-to-RxD (recessive dominant) Propagation delay TxD-to-RxD HIGH (dominant recessive) Propagation delay dominant Propagation delay HIGH recessive Typ. Max. Unit Remarks
Dynamic CAN-Transceiver Characteristics
td(L),TR
td(H),TR
td(L),T
td(H),T
Propagation delay td(L),R dominant
Propagation delay td(H),R recessive HIGH
Vdiff VCANH VCANL Deviation from ISO/DIS 11898
CRxD CRxD CRxD CRxD
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Diagrams
CANH CANL
AEA03328.VSD
Figure
Test Circuit Dynamic Characteristics Version)
CANH CANL
AEA03329.VSD
Figure
Test Circuit Dynamic Characteristics (GV33 Version)
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
VTxD VCC(33V)
VDIFF
td(L),
td(H),
VDIFF(d) VDIFF(r) VRxD VCC(33V)
0.7VCC(33V) 0.3VCC(33V)
td(L),
td(H),
td(L),
td(H),
AET02926
Figure
Timing Diagrams Dynamic Characteristics
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Application
E6250 4270
E6250 GV33 4476
AEA03308.VSD
Figure
Application Circuit TLE6250G with TLE6250GV33
Data Sheet
Rev. 4.0, 2008-04-28
TLE6250
Package Outlines
0.35 -0.2
1.75 MAX.
0.175 ±0.07 (1.45)
0.19 +0.06
±0.2
1.27 0.41+0.1 -0.06
0.64 ±0.25
MAX.
GPS01181
-0.2 Index Marking
Does include plastic metal protrusion 0.15 max. side Lead width 0.61 max. dambar area
Figure
PG-DSO-8 (PG-DSO-8-16 Plastic Dual Small Outline)
Green Product (RoHS compliant) meet world-wide customer requirements environmentally friendly products compliant with government regulations device available green product. Green products RoHS-Compliant (i.e Pb-free finish leads suitable Pb-free soldering according IPC/JEDEC J-STD-020).
find packages, sorts packing others Infineon Internet Page "Products": Surface Mounted Device Data Sheet Dimensions Rev. 4.0, 2008-04-28
TLE6250 Revision History: Page Page 2008-04-28 Rev.
Previous Version:Rev. (Data Sheet) Correction inside TLE6250GV33 characteristics Changed symbol leakage current CANH/L: From ICANH,lk ICANH/L,lk Changed maximum limit parameter: Output current, ICANH/L,lk, V,VCANH VCANL From updated Revision History
Page
Template: central_tmplt_a5.fm 2003-04-01
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