TLE6250GV33 Infineon Technologies, TLE6250GV33 Datasheet

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... 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 ...

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... AEC Qualified Description The HS CAN-transceiver family TLE6250 (TLE6250G and TLE6250GV33) are monolithic integrated circuits that are available as bare die as well PG-DSO-8 package. The ICs are optimized for high speed differential mode data transmission in automotive and industrial applications and they are compatible to ISO/DIS 11898. They work as an interface between the CAN protocol controller and the physical differential bus in both and 24 V systems ...

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... V logic I/O version (logic I/O voltage adaptive to RxD, TxD, INH. One control pin (INH) and two operation modes: Normal Mode and Standby Mode. Pin Configuration Figure 1 Pin Configuration TLE6250G (top view) Figure 2 Pin Configuration TLE6250GV33 (top view) Data Sheet T L E6250 ...

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... RxD CAN receive data output; LOW in dominant state, integrated pull- Logic supply input; 3 microcontroller logic supply can 33V be connected here! The digital I/Os of the TLE6250GV33 adopt to the connected microcontroller logic supply at 6 CANL Low line I/O; LOW in dominant state 7 CANH High line I/O; HIGH in dominant state ...

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Functional Block Diagram TL E6250 Figure 3 Block Diagram TLE6250G Data Sheet D river Output Stage Protection M ode C ontrol = R eceiver * ...

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... TL E6250 GV33 Figure 4 Block Diagram TLE6250GV33 Data Sheet D river Output Stage Protection M ode C ontrol = R eceiver * 7 TLE6250 AEA 03312 .VSD Rev. 3.9, 2007-08-22 ...

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... INH = 1 Figure 5 Mode State Diagram Both, the TLE6250G as well as the TLE6250C offer three different operation modes (see Figure 5), controlled by the INH and RM pin. The TLE6250GV33 offers only two modes, controlled by the INH (GV33) pin respectively. Data Sheet TLE6250G Normal Mode INH = 1 ...

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... INH pin has to be connected to ground level in order to switch the TLE6250G in normal mode. Application Information for the 3.3 V Versions The TLE6250GV33 can be used for both; 3.3 V and 5 V microcontroller logic supply, as shown in Figure 6. Don’t apply external resistors between the power supply and this pin. ...

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... Application with 3.3 V I/O supply TL E6250 TLE 4476 100 µF nF Application with 5 V I/O supply 100 µF nF Figure 6 Application Circuits TLE6250GV33 Used for 3.3 V and 5 V Logic Data Sheet 100 100 µ E6250 100 4270 TLE6250 µ 100 µF AEA 03300 .VSD µ ...

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... Application with separate 5V power supplies, for applications with switchable transceiver supply 100 µ 100 µF nF Figure 6 (cont.) Application Circuits TLE6250GV33 Used for 3.3 V and 5 V Logic Data Sheet TL E6250 TxD 100 4270 µ 4270 TLE6250 µ 100 nF + AEA 13299 .VSD Rev. 3.9, 2007-08-22 ...

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Electrical Characteristics TLE6250G (5 V version) Table 3 Absolute Maximum Ratings Parameter Voltages Supply voltage CAN input voltage (CANH, CANL) Logic voltages at INH, RM, TxD, RxD Electrostatic discharge voltage at CANH, CANL Electrostatic discharge voltage Temperatures Junction temperature Note: ...

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Table 5 Electrical Characteristics = 60 Ω 4.5 V < < 5 respect to ground; positive current flowing into pin; unless otherwise specified. Parameter Current Consumption Current consumption Current consumption Current consumption Current consumption Receiver ...

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Table 5 Electrical Characteristics (cont’ Ω 4.5 V < < 5 respect to ground; positive current flowing into pin; unless otherwise specified. Parameter Receive only Input (pin RM version only) HIGH ...

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Table 5 Electrical Characteristics (cont’ Ω 4.5 V < < 5 respect to ground; positive current flowing into pin; unless otherwise specified. Parameter Bus Transmitter CANL/CANH recessive output voltage CCANH, CANL recessive output ...

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Table 5 Electrical Characteristics (cont’ Ω 4.5 V < < 5 respect to ground; positive current flowing into pin; unless otherwise specified. Parameter Dynamic CAN-Transceiver Characteristics Propagation delay TxD-to- RxD LOW (recessive to ...

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... Electrical Characteristics TLE6250GV33 (3.3 V version) Table 6 Absolute Maximum Ratings Parameter Voltages Supply voltage 3.3 V supply CAN input voltage (CANH, CANL) Logic voltages at INH, RM, TxD, RxD Electrostatic discharge voltage at CANH, CANL Electrostatic discharge voltage Temperatures Junction temperature Note: Maximum ratings are absolute ratings; exceeding any one of these values may cause irreversible damage to the integrated circuit ...

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Table 8 Electrical Characteristics V 4.5 V < < 5.5 V; (3.0 V < CC -40 °C < < 150 °C; all voltages with respect to ground; positive current flowing into pin unless otherwise specified. Parameter Symbol Current ...

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Table 8 Electrical Characteristics (cont’d) V 4.5 V < < 5.5 V; (3.0 V < CC -40 °C < < 150 °C; all voltages with respect to ground; positive current flowing into pin unless otherwise specified. Parameter Symbol ...

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Table 8 Electrical Characteristics (cont’d) V 4.5 V < < 5.5 V; (3.0 V < CC -40 °C < < 150 °C; all voltages with respect to ground; positive current flowing into pin unless otherwise specified. Parameter Symbol ...

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Table 8 Electrical Characteristics (cont’d) V 4.5 V < < 5.5 V; (3.0 V < CC -40 °C < < 150 °C; all voltages with respect to ground; positive current flowing into pin unless otherwise specified. Parameter Symbol ...

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Diagrams 47 pF Figure 7 Test Circuit for Dynamic Characteristics (5 V Version Figure 8 Test Circuit for Dynamic Characteristics (GV33 Version) Data Sheet INH 7 CANH TxD RM Ω 60 RxD 6 CANL V CC GND 2 ...

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V TxD V CC(33V) GND V DIFF V RxD V CC(33V) GND Figure 9 Timing Diagrams for Dynamic Characteristics Data Sheet t t d(L DIFF(d) t d(L), R 0.3 V CC(33V) t d(L TLE6250 t d(H), ...

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... Application Ω 120 V Bat C AN Bus + 22 µ µF Ω 120 Figure 10 Application Circuit TLE6250G with TLE6250GV33 Data Sheet T L E6250 100 4270 100 E6250 GV33 100 4476 100 22 µ TLE6250 µ 100 µ µ 100 100 µ AEA03308.VSD Rev. 3.9, 2007-08-22 ...

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Package Outlines 1.27 +0.1 2) 0.41 -0. -0.2 Index Marking 1) Does not include plastic or metal protrusion of 0.15 max. per side 2) Lead width can be 0.61 max. in dambar area Figure ...

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... TLE6250 Revision History: Previous Version:Rev. 3.8 (Data Sheet) Page RoHS-compliant version of the TLE6250G and TLE6250GV33 All Infineon logo updated Page 2 updated Legal Disclaimer Page 3 added “AEC qualified” and “RoHS” logo, “Green Product (RoHS compliant)” and “AEC qualified” statement added to ...