English
Language : 

K04RLM12 Datasheet, PDF (3/23 Pages) Texas Instruments – Operational Amplifier
OBSOLETE
K04RLM12, LM12CL
www.ti.com
Electrical Characteristics(1)
Parameter
Conditions
Input Offset Voltage
Input Bias Current
Input Offset Current
Common Mode Rejection
Power Supply Rejection
Output Saturation Threshold
Large Signal Voltage Gain
Thermal Gradient Feedback
Output-Current Limit
±10V ≤ VS ≤ ±0.5 VMAX, VCM = 0
V− + 4V ≤ VCM ≤ V+ −2V
V− +4V ≤ VCM ≤ V+ −2V
V− +4V ≤ VCM ≤ V+ −2V
V+ = 0.5 VMAX,
−6V ≥ V− ≥ −0.5 VMAX
V− = −0.5 VMAX,
6V ≤ V+ ≤ 0.5 VMAX
tON = 1 ms,
ΔVIN = 5 (10 ) mV,
IOUT = 1A
8A
10A
tON = 2 ms,
VSAT = 2V, IOUT = 0
VSAT = 8V, RL = 4Ω
PDISS = 50W, tON = 65 ms
tON = 10 ms, VDISS = 10V
tON = 100 ms, VDISS = 58V
Power Dissipation Rating
DC Thermal Resistance
AC Thermal Resistance
Supply Current
tON = 100 ms, VDISS = 20V
VDISS = 58V
See(2) VDISS = 20V
VDISS = 58V
See (2)
VOUT = 0, IOUT = 0
SNOSBY8D – MAY 1999 – REVISED APRIL 2013
Typ
25°C
2
0.15
0.03
86
90
110
LM12CL
Limits
15/20
0.7/1.0
0.2/0.3
70/65
70/65
75/70
Units
mV (max)
μA (max)
μA (max)
dB (min)
dB (min)
dB (min)
1.8
2.2/2.5
4
5/7
5
V (max)
V (max)
V (max)
100
30/20
V/mV (min)
50
15/10
V/mV (min)
30
100
μV/W (max)
13
16
A (max)
1.5
0.9/0.6
A (min)
1.5
1.7
A (max)
100
80/55
W (min)
80
52/35
W (min)
2.3
2.9
°C/W (max)
2.7
4.5
°C/W (max)
1.6
2.1
°C/W (max)
60
120/140
mA (max)
(1) The supply voltage is ±30V (VMAX = 60V), unless otherwise specified. The voltage across the conducting output transistor (supply to
output) is VDISS and internal power dissipation is PDISS. Temperature range is 0°C ≤ TC ≤ 70°C where TC is the case temperature.
Standard typeface indicates limits at 25°C while boldface type refers to limits or special conditions over full temperature range.
With no heat sink, the package will heat at a rate of 35°C/sec per 100W of internal dissipation.
(2) This thermal resistance is based upon a peak temperature of 200°C in the center of the power transistor and a case temperature of
25°C measured at the center of the package bottom. The maximum junction temperature of the control circuitry can be estimated based
upon a dc thermal resistance of 0.9°C/W or an ac thermal resistance of 0.6°C/W for any operating voltage.
Copyright © 1999–2013, Texas Instruments Incorporated
Submit Documentation Feedback
3
Product Folder Links: K04RLM12 LM12CL