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| AMIS-42665 Datasheet, PDF (6/13 Pages) AMI SEMICONDUCTOR – High-Speed Low Power CAN Transceiver | |||
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AMIS-42665 High-Speed Low Power CAN Transceiver
Data Sheet
8.4 Characteristics
VCC = 4.75 to 5.25V; Tjunc = -40 to +150°C; RLT =60â¦ï unless specified otherwise.
Table 6: Characteristics
Symbol
Parameter
Supply (pin VCC)
ICC
Supply current
ICCS
Supply current in standby mode
Transmitter Data Input (pin TxD)
VIH
High-level input voltage
VIL
Low-level input voltage
IIH
High-level input current
IIL
Low-level input current
Ci
Input capacitance
Transmitter Mode Select (pin STB)
VIH
High-level input voltage
VIL
Low-level input voltage
IIH
High-level input current
IIL
Low-level input current
Ci
Input capacitance
Receiver Data Output (pin RxD)
VOH
High-level output voltage
VOL
Low-level output voltage
Ioh
High-level output current
Iol
Low-level output current
Bus Lines (pins CANH and CANL)
Vo(reces) (norm)
Recessive bus voltage
Vo(reces) (stby)
Recessive bus voltage
Io(reces) (CANH)
Recessive output current at pin CANH
Io(reces) (CANL)
Recessive output current at pin CANL
Vo(dom) (CANH)
Vo(dom) (CANL)
Vo(dif) (bus_dom)
Vo(dif) (bus_rec)
Io(sc) (CANH)
Io(sc) (CANL)
Vi(dif) (th)
Vihcm(dif) (th)
Vi(dif) (hys)
Ri(cm) (CANH)
Ri(cm) (CANL)
Ri(cm) (m)
Ri(dif)
Ci(CANH)
Ci(CANL)
Ci(dif)
Dominant output voltage at pin CANH
Dominant output voltage at pin CANL
Differential bus output voltage
(VCANH - VCANL)
Differential bus output voltage
(VCANH - VCANL)
Short circuit output current at pin CANH
Short circuit output current at pin CANL
Differential receiver threshold voltage
(see Figure 5)
Differential receiver threshold voltage for
high common-mode (see Figure 5)
Differential receiver input voltage hysteresis
(see Figure 5)
Common-mode input resistance at pin CANH
Common-mode input resistance at pin CANL
Matching between pin CANH and pin CANL
common mode input resistance
Differential input resistance
Input capacitance at pin CANH
Input capacitance at pin CANL
Differential input capacitance
Conditions
Dominant; VTxD = 0V
Recessive; VTxD = VCC
Tjunc,max = 100°C
Output recessive
Output dominant
VTxD =VCC
VTxD = 0V
Not tested
Standby mode
Normal mode
VSTB =VCC
VSTB = 0V
Not tested
IRXD = -10mA
IRXD = 5mA
Vo = 0.7 x VCC
Vo = 0.3 x VCC
VTxD = VCC; no load
normal mode
VTxD = VCC; no load
standby mode
-35V <VCANH< +35V;
0V <VCC < 5.25V
-35V <VCANL < +35V;
0V <VCC < 5.25V
VTxD = 0V
VTxD = 0V
VTxD = 0V; dominant;
42.5⦠< RLT < 60â¦
VTxD = VCC; recessive;
no load
VCANH = 0V; VTxD = 0V
VCANL = 36V; VTxD = 0V
-5V <VCANL < +12V;
-5V <VCANH < +12V;
-35V <VCANL < +35V;
-35V <VCANH < +35V;
-35V <VCANL < +35V;
-35V <VCANH < +35V;
VCANH = VCANL
VTxD = VCC; not tested
VTxD = VCC; not tested
VTxD = VCC; not tested
Min.
2.0
-0.3
-5
-75
-
2.0
-0.3
-5
-1
-
0.6 x VCC
-5
5
2.0
-100
-2.5
-2.5
3.0
0. 5
1.5
-120
-45
45
0.5
0.40
50
15
15
-3
25
Typ.
45
4
10
-
-
0
-200
5
-
-
0
-4
5
0.25
-10
10
2.5
0
-
-
3.6
1.4
2.25
0
-70
70
0.7
0.7
70
26
26
0
50
7.5
7.5
3.75
Max.
65
8
15
VCC + 0.3
+0.8
+5
-350
10
VCC + 0.3
+0.8
+5
-10
10
0.75 x VCC
0.45
-15
15
3.0
100
+2.5
+2.5
4.25
1.75
3.0
+50
-120
120
0.9
1.00
100
37
37
+3
75
20
20
10
Unit
mA
mA
µA
V
V
µA
µA
pF
V
V
µA
µA
pF
V
V
mA
mA
V
mV
mA
mA
V
V
V
mV
mA
mA
V
V
mV
Kâ¦
Kâ¦
%
Kâ¦
pF
pF
pF
AMI Semiconductor â Rev. 3.1, April 06
6
www.amis.com
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