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SN65HVD233 Datasheet, PDF (4/27 Pages) Texas Instruments – 3.3-V CAN TRANSCEIVERS
SN65HVD233
SN65HVD234
SN65HVD235
SLLS557D − NOVEMBER 2002 REVISED JUNE 2005
www.ti.com
RECOMMENDED OPERATING CONDITIONS
PARAMETER
MIN
TYP
Supply voltage, VCC
3
Voltage at any bus terminal (separately or common mode)
−7
High−level input voltage, VIH
Low−level input voltage, VIL
Differential input voltage, VID
D, EN, AB, LBK
2
D, EN, AB, LBK
0
−6
Resistance from RS to ground
Input Voltage at RS for standby, VI(Rs)
High−level output current, IOH
Driver
Receiver
0
0.75 VCC
−50
−10
Low−level output current, IOL
Driver
Receiver
Operating junction temperature, TJ
HVD233, HVD234, HVD235
Operating free−air temperature(1), TA
HVD233, HVD234, HVD235
−40
(1) Maximum free-air temperature operation is allowed as long as the device maximum junction temperature is not exceeded.
DRIVER ELECTRICAL CHARACTERISTICS
over operating free-air temperature range unless otherwise noted
PARAMETER
TEST CONDITIONS
VO(D) Bus output voltage (Dominant)
CANH D at 0 V, RS at 0 V, See Figures 1 and 2
CANL
CANH
VO
Bus output voltage (Recessive)
CANL D at 3 V, RS at 0 V, See Figures 1 and 2
VOD(D) Differential output voltage (Dominant)
VOD
Differential output voltage (Recessive)
VOC(pp)
IIH
IIL
Peak-to-peak common-mode output voltage
High-level input current; D, EN, LBK, AB
Low-level input current; D, EN, LBK, AB
IOS
Short−circuit output current
CO
IIRs(s)
Output capacitance
RS input current for standby
ICC
Supply current
Sleep
Standby
Dominant
Recessive
(1) All typical values are at 25°C and with a 3.3 V supply.
D at 0 V, RS at 0 V, See Figures 1 and 2
D at 0 V, RS at 0 V, See Figures 2 and 3
D at 3 V, RS at 0 V, See Figures 1 and 2
D at 3 V, RS at 0 V, No Load
See Figure 10
D at 2 V
D at 0.8 V
VCANH = −7 V, CANL Open, See Figure 15
VCANH = 12 V, CANL Open, See Figure 15
VCANL = −7 V, CANH Open, See Figure 15
VCANL = 12 V, CANH Open, See Figure 15
See receiver input capacitance
RS at 0.75 VCC
EN at 0 V, D at VCC, RS at 0 V or VCC
RS at VCC, D at VCC, AB at 0 V, LBK at 0 V,
EN at VCC
D at 0 V, No Load, AB at 0 V, LBK at 0 V,
RS at 0 V, EN at VCC
D at VCC, No Load, AB at 0 V,
LBK at 0 V, RS at 0 V, EN at VCC
MIN TYP(1)
2.45
0.5
2.3
2.3
1.5
2
1.2
2
−120
−0.5
1
−30
−30
−250
−1
−10
0.05
200
MAX
3.6
12
5.5
0.8
6
100
5.5
50
10
150
125
MAX
VCC
1.25
3
3
12
0.05
30
30
1
250
2
600
6
6
UNIT
V
kΩ
V
mA
mA
°C
°C
UNIT
V
V
V
mV
V
V
µA
µA
mA
µA
µA
mA
4