Gain bandwidth product (GBP): 1MHz Number of amplifier groups: 1 Op amp type: General Purpose Power consumption of each channel: 2.2mA Slew rate (SR): 6 V/us Power supply voltage: ±1.35V ~ 18V High-precision operational amplifier, Automotive grade operating temperature range,
3PEAK is a global semiconductor supplier that provides analog power, signal chain and embedded processor product portfolios. It is committed to the research and development of high-performance, high-quality, and high-reliability integrated circuit products to provide customers with comprehensive solutions. Its product applications cover many fields such as communications, industry, security monitoring, medical and health, instrumentation, new energy, and automotive industries. 3PEAK is headquartered in Plano, Texas, USA and Shanghai, China, with a global support team and resources to help customers.
Gain bandwidth product (GBP): 1MHz Number of amplifier groups: 1 Op amp type: General Purpose Power consumption of each channel: 2.2mA Slew rate (SR): 6 V/us Power supply voltage: ±1.35V ~ 18V High-precision operational amplifier, Automotive grade operating temperature range,
Maximum Junction Temperature................... 150°
C
Storage Temperature Range..........
–65°
to 150°
C
C
Lead Temperature (Soldering, 10 sec) ......... 260°
C
Note 1:
Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum
Rating condition for extended periods may affect device reliability and lifetime.
Note 2:
The op amp supplies must be established simultaneously, with, or before, the application of any input signals.
Note 3:
The inputs are protected by ESD protection diodes to each power supply. If the input extends more than 500mV beyond the power supply, the input
current should be limited to less than 10mA.
Note 4:
A heat sink may be required to keep the junction temperature below the absolute maximum. This depends on the power supply voltage and how many
amplifiers are shorted. Thermal resistance varies with the amount of PC board metal connected to the package. The specified values are for short traces
connected to the leads.
ESD, Electrostatic Discharge Protection
Symbol
HBM
CDM
Parameter
Human Body Model ESD
Charged Device Model ESD
Condition
MIL-STD-883H Method 3015.8
JEDEC-EIA/JESD22-C101E
Minimum Level
3
2
Unit
kV
kV
Thermal Resistance
Package Type
8-Pin SOIC
θ
JA
158
θ
JC
43
Unit
° C/W
2
REV0.0
www.3peakic.com
TP07
Electrical Characteristics
Precision RRO Operational Amplifier
The specifications are at T
A
= 27° C, V
SUPPLY
=
±15V,
V
CM
= V
OUT
=0V, R
L
= 2kΩ,
C
L
=100pF. Unless otherwise noted.
SYMBOL
V
OS
V
OS
TC
I
B
I
OS
V
n
e
n
C
IN
CMRR
V
CM
PSRR
A
VOL
V
OL
, V
OH
R
OUT
R
O
I
SC
V
DD
I
Q
PM
GM
GBWP
SR
FPBW
t
S
X
talk
PARAMETER
Input Offset Voltage
Input Offset Voltage Drift
Input Bias Current
Input Offset Current
Input Voltage Noise
Input Voltage Noise Density
Input Capacitance
Common Mode Rejection Ratio
Common-mode Input Voltage
Range
Power Supply Rejection Ratio
Open-Loop Large Signal Gain
Output Swing from Supply Rail
Closed-Loop Output Impedance
Open-Loop Output Impedance
Output Short-Circuit Current
Supply Voltage
Quiescent Current per Amplifier
Phase Margin
Gain Margin
Gain-Bandwidth Product
Slew Rate
Full Power Bandwidth
Note 1
Settling Time, 0.1%
Settling Time, 0.01%
Channel Separation
R
LOAD
= 2kΩ, C
LOAD
= 100pF
R
LOAD
= 2kΩ, C
LOAD
= 100pF
f = 1kHz
A
V
= 1, V
OUT
= 0V to 10V, C
LOAD
= 100pF,
R
LOAD
= 2kΩ
A
V
= –1, 10V Step
f = 1kHz, R
L
= 2kΩ
f = 0.1Hz to 10Hz
f = 1kHz
Differential
Common Mode
V
CM
= -5.6V to 4V
V
–
-0.3
130
R
LOAD
= 2kΩ
R
LOAD
= 100kΩ
G = 1, f =1kHz, I
OUT
= 0
f = 1kHz, I
OUT
= 0
Sink or source current
2.7
2.2
55
8
1
6
210
1
1
110
100
118
50
0.01
125
35
36
V
CM
= V
DD
/2
-40° C to 125° C
T
A
= 27 ° C
T
A
= 85 ° C
T
A
= 125 ° C
CONDITIONS
MIN
-100
TYP
± 50
0.9
40
550
7.7
0.001
2.35
19
4
2.5
120
V
+
-2.0
MAX
+100
UNITS
μV
μV/° C
pA
pA
nA
pA
μV
RMS
nV/√Hz
pF
dB
V
dB
dB
mV
Ω
Ω
mA
V
mA
°
dB
MHz
V/μs
kHz
μs
dB
Note 1:
Full power bandwidth is calculated from the slew rate FPBW = SR/π • V
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FPGA/CPLD
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