Datasheet
SGLS356 − MAY 2006
6
www.ti.com
driver electrical characteristics over recommended operating conditions (unless otherwise noted)
PARAMETER TEST CONDITIONS MIN TYP
†
MAX UNIT
V
OH
Dominant
V
I
= 0 V,
See Figure 1 and Figure 3
CANH 2.45 V
CC
V
OH
Bus output
voltage
Dominant
V
I
= 0 V,
See Figure 1 and Figure 3
CANL 0.5 1.25
V
V
OL
Bus output
voltage
Recessive
V
I
= 3 V,
See Figure 1 and Figure 3
CANH 2.3
V
V
OL
Recessive
V
I
= 3 V,
See Figure 1 and Figure 3
CANL 2.3
V
OD(D)
Dominant
V
I
= 0 V, See Figure 1 1.5 2 3
V
V
OD(D
)
Differential output
voltage
Dominant
V
I
= 0 V, See Figure 2 1.2 2 3
V
V
OD(R)
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
OS
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 SN65HVD230M V
(RS)
= V
CC
370 600 µA
I
CC
Supply current
All devices
Dominant V
I
= 0 V, No load Dominant 10 17
mA
I
CC
Supply current
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)
PARAMETER TEST CONDITIONS MIN TYP MAX UNIT
V
(RS)
= 0 V 35 85
t
PLH
Propagation delay time, low-to-high-level outpu
t
R
S
with 10 kΩ to ground 70 190
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 70 130
t
PHL
Propagation delay time, high-to-low-level outpu
t
R
S
with 10 kΩ to ground 130 205
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
C = 50 pF,
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
See Figure 4
370
ns
t
r
Differential output signal rise time
V
(RS)
= 0 V
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
S
with 10 kΩ to ground
75 120 160 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
S
with 100 kΩ to ground
350 800 1200 ns
t
f
Differential output signal fall time
R
S
with 100 kΩ to ground
600 825 1200 ns