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120

125

130

135

140

145

150

−40 0 25 70 125

V

CC

=4.75V

V

CC

=5V

V

CC

=5.25V

− Recessive-to-DominantLoop

Time

− ns

t

LOOP1

T

A

− Free-AirTemperature −°C

Sat0V

R =60

C =100pF

AirFlowat7cf/m

TXDInputisa125-kHz

50%DutyCyclePulse

L

L

W

140

145

150

155

160

165

170

−40 0 25 70 125

V

CC

=5.25V

− Dominant-to-RecessiveLoop

Time

−ns

t

LOOP2

T

A

− Free-AirTemperature −°C

V

CC

=5V

V

CC

=4.75V

Sat0V

R =60

C =100pF

AirFlowat7cf/m

TXDInputisa125-kHz

50%DutyCyclePulse

L

L

W

0

5

10

15

20

25

30

35

40

45

50

200 400 500 600 800 1000

SignalingRate − kbps

I

CC

− RMSSupplyCurrent − mA

T

A

=25°C

V

CC

=5V

Sat0V

R

L

=60 W

RXD=15pF

−10

0

10

20

30

40

50

60

70

80

90

0 1 2 3 4 5

T

A

=25°C

V

CC

=5V

Sat0V

TXDInputisa125-kHz

1%DutyCyclePulse

I

OL

− Low-LevelOutputCurrent − mA

V

O(CANL)

− Low-LevelOutputVoltage V–

SN65HVD1050-EP

www.ti.com

SLLS772A –DECEMBER 2006–REVISED OCTOBER 2009

TYPICAL CHARACTERISTICS

RECESSIVE-TO-DOMINANT LOOP TIME DOMINANT-TO-RECESSIVE LOOP TIME

vs vs

FREE-AIR TEMPERATURE (Across V

CC

) FREE-AIR TEMPERATURE (Across V

CC

)

Figure 12. Figure 13.

SUPPLY CURRENT (RMS) DRIVER LOW-LEVEL OUTPUT VOLTAGE

vs vs

SIGNALING RATE LOW-LEVEL OUTPUT CURRENT

Figure 14. Figure 15.

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