TLE8250G_14 Datasheet, PDF(21/24 Page) Infineon Technologies AG

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TLE8250G_14 Datasheet, PDF (21/24 Pages) Infineon Technologies AG – High Speed CAN-Transceiver

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6,000

TLE8250G

Application Information

5,000

4,000

3,000

2,000

1,000

VRxD,L=0.4V; typical output current

VCC=5V

VRxD,L=0.4V; typical output current

+ 6sigma; VCC=5V

VRxD,L=0.4V; typical output current

- 6sigma; VCC=5V

0,000

-40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150

Temperature in Â°C

Figure 12 RxD Output driver capability for a logical âLowâ signal1)

The diagram in Figure 12 shows the output current capability of the RxD output pin depended on the chip

temperature TJ. At a logical âLowâ signal VRxD,L = 0.4 V, the typical output current is between 5 mA for -40 Â°C and

3.5 mA for a temperature of +150 Â°C. The dependency of the output current on the temperature is almost linear.

The upper curve âVRxD,L = 0.4 V; typical output current + 6 sigma; VCC=5 Vâ reflects the expected maximum value

of the RxD output current of the TLE8250G.

The lower curve âVRxD,L = 0.4 V; typical output current - 6 sigma; VCC=5 Vâ reflects the expected minimum value

of the RxD output current of the TLE8250G. All simulations are based on a power supply VCC = 5.0 V.

8.3

Further Application Information

â¢ Please contact us for information regarding the FMEA pin.

â¢ Existing App. Note (Title)

â¢ For further information you may contact http://www.infineon.com/transceiver

1) Characteristics generated by simulation and specified by design. Production test criteria is described in Table 6;

Pos.: 7.1.9

Data Sheet

Rev. 1.1, 2014-10-09

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