EVAL-ADM3051EBZ AD [Analog Devices], EVAL-ADM3051EBZ Datasheet - Page 3
EVAL-ADM3051EBZ
Manufacturer Part Number
EVAL-ADM3051EBZ
Description
High Speed Industrial CAN Transceiver
Manufacturer
AD [Analog Devices]
Datasheet
1.EVAL-ADM3051EBZ.pdf
(16 pages)
Data Sheet
SPECIFICATIONS
All voltages relative to ground (Pin 2); 4.5 V ≤ V
typical specifications are at T
Table 1.
Parameter
SUPPLY CURRENT
DRIVER
RECEIVER
VOLTAGE REFERENCE
STANDBY/SLOPE CONTROL
1
In
Dominant State
Recessive State
Standby State
Logic Inputs
Differential Outputs
Differential Inputs
Logic Outputs
Reference Output Voltage
Input Voltage for Standby Mode
Current for Slope Control Mode
Slope Control Mode Voltage
standby, V = 4.75 V to 5.25 V.
Input Voltage High
Input Voltage Low
CMOS Logic Input Current High
CMOS Logic Input Current Low
Recessive Bus Voltage
Off-State Output Leakage Current
CANH Output Voltage
CANL Output Voltage
Differential Output Voltage
Short-Circuit Current, CANH
Short-Circuit Current, CANL
Voltage Recessive
Voltage Dominant
Input Voltage Hysteresis
CANH, CANL Input Resistance
Differential Input Resistance
Output Voltage High
Output Voltage Low
Short-Circuit Current
CC
A
= 25°C, V
CC
= 5 V, unless otherwise noted.
Symbol
I
V
V
I
I
V
I
I
V
V
V
V
V
I
I
I
V
V
V
R
R
V
V
V
|I
V
V
V
I
V
CC
IH
IL
LO
LO
SCCANH
SCCANH
SCCANL
SL
OS
IH
IL
CANH
CANH
CANL
OD
OD
OD
IDR
IDD
HYS
IN
DIFF
OH
OL
OL
REF
REF
STB
SLOPE
OPE
|
, V
CC
CANL
≤ 5.5 V. T
Min
0.7 V
−0.3
−200
−100
2.0
−2
−10
3.0
0.5
1.5
1.5
−500
−1.0
−1.0
0.9
1.0
5
20
0.8 V
0
0
2.025
0.4 V
0.75 V
−10
0.4
A
Rev. 0 | Page 3 of 16
V
= −40°C to +125°C, R
CC
CC
CC
CC
CC
Typ
275
−100
150
Max
78
10
V
+0.3 V
+30
−600
3.0
+2
+10
4.5
2.0
3.0
+50
−200
200
+0.5
+0.4
5.0
5.0
25
100
V
0.2 V
1.5
120
3.025
0.6 V
−200
0.6 V
CC
CC
+ 0.3
CC
CC
CC
CC
L
= 60 Ω, I
Unit
mA
V
V
μA
mA
mA
V
V
mV
mA
V
V
mV
V
V
V
mA
V
V
V
V
mA
μA
μA
V
V
V
mA
mA
V
V
kΩ
kΩ
μA
RS
> −10 μA, unless otherwise noted. All
Test Conditions
V
V
V
Output recessive
Output dominant
V
V
V
−2 V < (V
−5 V < (V
V
V
V
V
V
V
V
V
−2 V < V
V = 4.75 V to 5.25 V, C = 30 pF
−7 V < V
C = 30 pF
−2 V < V
V
−7 V < V
C = 30 pF
See
I
I
I
V
V
V = 4 V, |I | = 5 μA
OUT
OUT
OUT
TxD
TxD
RS
TxD
TxD
TxD
TxD
TxD
TxD
TxD
TxD
CANH
CANH
CANL
CC
L
CC
L
OUT
RS
RS
= V
= 1 V, |I
= 4.75 V to 5.
= −100 μA
= 1 mA
= 10 mA
Figure 26
= 1 V
= 4 V; R
= 4 V
= 1 V
= 4 V, R
= 1 V, see
= 1 V, see
= 1 V, see
= 1 V, R
= 4 V, R
= GND or V
= 36 V
= −5 V
= −36 V
CC
, I
CANL
CANL
CANL
CANL
CANL
CANL
TxD
1
REF
REF
SLOPE
L
L
L
, V
, V
, V
, V
, V
, V
= I
= ∞, see
= 45 Ω, see
= ∞, see
| = 50 μA
CANH
CANH
CANH
CANH
Figure 23
Figure 23
Figure 23
CANH
CANH
RxD
CC
= 47 kΩ
25 V, C
= I
<7 V, see
<12 V, see
<7 V, see
<12 V, see
) < 7 V
) < 36 V
VREF
Figure 23
Figure 23
L
L
= 0 mA, T
Figure 23
= 30 pF
ADM3051
Figure 25
Figure 25
Figure 25
Figure 25
A
< 90°C
,
,
,
,
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