Datasheet

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SN65HVD230Q-Q1

SN65HVD231Q-Q1

SN65HVD232Q-Q1

SGLS398A − APRIL 2002 − REVISED APRIL 2008

7

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driver electrical characteristics over recommended operating conditions (unless otherwise noted)

PARAMETER TEST CONDITIONS MIN TYP

†

MAX UNIT

V

Dominant

V

I

= 0 V

,

CANH 2.45 V

CC

V

OH

Bus out

p

ut

Dominant

V

I

=

0

V

,

See Figure 1 and Figure 3

CANL 0.5 1.25

V

V

Bus

output

voltage

Recessive

V

I

= 3 V

,

CANH 2.3

V

V

OL

Recessive

V

I

=

3

V

,

See Figure 1 and Figure 3

CANL 2.3

V

Dominant

V

I

= 0 V, See Figure 1 1.5 2 3

V

V

OD(D)

Differential out

p

ut

Dominant

V

I

= 0 V, See Figure 2 1.2 2 3

V

V

Differential

output

voltage

Recessive

V

I

= 3 V, See Figure 1 −120 0 12 mV

V

OD(R)

Recessive

V

I

= 3 V, No load −0.5 −0.2 0.05 V

I

IH

High-level input current V

I

= 2 V −30 µA

I

IL

Low-level input current V

I

= 0.8 V −30 µA

I

Short circuit output current

V

CANH

= −2 V −250 250

mA

I

OS

Short-circuit output current

V

CANL

= 7 V −250 250

mA

C

o

Output capacitance See receiver

Standby SN65HVD230Q

V V

370 600

A

I

CC

Supply current

Sleep SN65HVD231Q

V

(RS)

= V

CC

0.1

µA

I

CC

Supply current

All devices

Dominant V

I

= 0 V, No load Dominant 10 17

mA

All devices

Recessive V

I

= V

CC

, No load Recessive 10 17

mA

†

All typical values are at 25°C and with a 3.3-V supply.

driver switching characteristics at T

A

= 25°C (unless otherwise noted)

SN65HVD230Q and SN65HVD231Q

PARAMETER TEST CONDITIONS MIN TYP MAX UNIT

V

(RS)

= 0 V 35 85

t

PLH

Propagation delay time, low-to-high-level output

R

S

with 10 kΩ to ground 70 125

ns

t

PLH

Propagation

delay

time,

low to high level

output

R

S

with 100 kΩ to ground 500 870

ns

V

(RS)

= 0 V 70 120

t

PHL

Propagation delay time, high-to-low-level output

R

S

with 10 kΩ to ground 130 180

ns

t

PHL

Propagation

delay

time,

high to low level

output

R

S

with 100 kΩ to ground 870 1200

ns

V

(RS)

= 0 V 35

t

sk

(p)

Pulse skew (|t

P

(

HL

)

− t

P

(

LH

)

|)

R

S

with 10 kΩ to ground

C

L

= 50 pF,

See Figure 4

60

ns

t

sk(p)

Pulse

skew

(|t

P(HL)

t

P(LH)

|)

R

S

with 100 kΩ to ground

S

ee

Fi

gure

4

370

ns

t

r

Differential output signal rise time

V 0V

25 50 100 ns

t

f

Differential output signal fall time

V

(RS)

= 0 V

40 55 80 ns

t

r

Differential output signal rise time

R with 10 kΩ to ground

80 120 160 ns

t

f

Differential output signal fall time

R

S

with 10 kΩ to ground

80 125 150 ns

t

r

Differential output signal rise time

R with 100 kΩ to ground

600 800 1200 ns

t

f

Differential output signal fall time

R

S

with 100 kΩ to ground

600 825 1000 ns