5
LT1351
ELECTRICAL CHARACTERISTICS
–40°C ≤ T
A
≤ 85°C, V
CM
= 0V unless otherwise noted (Note 6).
SYMBOL PARAMETER CONDITIONS V
SUPPLY
MIN TYP MAX UNITS
V
OUT
Output Swing R
L
= 5k, V
IN
= ±10mV ±15V 13.3 ±V
R
L
= 2k, V
IN
= ±10mV ±15V 13.2 ±V
R
L
= 1k, V
IN
= ±10mV ±15V 10.0 ±V
R
L
= 1k, V
IN
= ±10mV ±5V 3.3 ±V
R
L
= 500Ω, V
IN
= ±10mV ±5V 3.2 ±V
R
L
= 5k, V
IN
= ±10mV ±2.5V 1.1 ±V
I
OUT
Output Current V
OUT
= ±10V ±15V 10.0 mA
V
OUT
= ±3.2V ±5V 6.4 mA
I
SC
Short-Circuit Current V
OUT
= 0V, V
IN
= ±3V ±15V 20 mA
SR Slew Rate A
V
= –1, R
L
= 5k (Note 3) ±15V 50 V/µs
±5V 15 V/µs
GBW Gain Bandwidth f = 200kHz, R
L
= 10k ±15V 1.6 MHz
± 5V 1.4 MHz
I
SHDN
Shutdown Input Current SHDN = V
EE
+ 0.1V ±15V – 30 µA
SHDN = V
CC
±15V 5 µA
I
S
Supply Current ±15V 390 µA
±5V 380 µA
SHDN = V
EE
+ 0.1V ±5V 30 µA
Note 1: Differential inputs of ±10V are appropriate for transient operation
only, such as during slewing. Large, sustained differential inputs will cause
excessive power dissipation and may damage the part. See Input
Considerations in the Applications Information section of this data sheet
for more details.
Note 2: A heat sink may be required to keep the junction temperature
below absolute maximum when the output is shorted indefinitely.
Note 3: Slew rate is measured between ±8V on the output with ±12V
input for ±15V supplies and ±2V on the output with ±3V input for ±5V
supplies.
Note 4: Full-power bandwidth is calculated from the slew rate
measurement: FPBW = (Slew Rate)/2πV
P
.
Note 5: This parameter is not 100% tested.
Note 6: The LT1351 is designed, characterized and expected to meet these
extended temperature limits, but is not tested at –40°C and at 85°C.
Guaranteed I grade parts are available; consult factory.
TYPICAL PERFORMANCE CHARACTERISTICS
U
W
SUPPLY VOLTAGE (±V)
0
SUPPLY CURRENT (µA)
200
250
125°C
25°C
–55°C
20
1351 G01
150
100
5
10
15
350
300
Supply Current vs Supply Voltage
and Temperature
SUPPLY VOLTAGE (±V)
0
V
–
COMMON MODE RANGE (V)
0.5
1.5
2.0
V
+
–1.5
10
20
1351 G02
1.0
–1.0
–0.5
–2.0
5
15
T
A
= 25°C
∆V
OS
= 1mV
Input Common Mode Range
vs Supply Voltage
INPUT COMMON MODE VOLTAGE (V)
–15
–20
INPUT BIAS CURRENT (nA)
–10
0
10
20
30
–10
–5 0 5
1351 G03
10 15
T
A
= 25°C
V
S
= ±15V
I
B
=
I
B
+
+ I
B
–
2
Input Bias Current
vs Input Common Mode Voltage