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LMH6703_16 Datasheet, PDF (5/26 Pages) Texas Instruments – 1.2 GHz, Low Distortion Op Amp with Shutdown
www.ti.com
LMH6703
SNOSAF2E – FEBRUARY 2005 – REVISED MAY 2016
6.5 Electrical Characteristics
at TJ = 25°C, AV = 2, VS = ±5 V, RL = 100 Ω, RF = 560 Ω, SD = Floating (unless otherwise noted)(1)
Boldface limits apply at the temperature extremes.
PARAMETER
CONDITIONS
MIN (2)
TYP (3)
FREQUENCY DOMAIN PERFORMANCE
SSBW
LSBW
–3-dB bandwidth
GF
0.1-dB gain flatness
DG
Differential gain
DP
Differential phase
TIME DOMAIN RESPONSE
VOUT = 0.5 VPP, AV = +1
VOUT = 0.5 VPP, AV = +2
VOUT = 2 VPP
VOUT = 4 VPP
VOUT = 0.5 VPP
VOUT = 2 VPP
RL = 150 Ω, 4.43 MHz
RL = 150 Ω, 4.43 MHz
1800
1200
750
500
150
150
0.01%
0.02
2-V step, 10% to 90%
0.5
tr
Rise time
6-V step, 10% to 90%
1.05
tf
Fall time
SR
Slew rate
2-V step, 10% to 90%
6-V step, 10% to 90%
4-V step, 10% to 90% (4)
6-V step, 10% to 90% (4)
0.5
1.05
4200
4500
ts
Settling time
2-V step, VOUT within 0.1%
10
DISTORTION AND NOISE RESPONSE
HD2
HD3
IMD
en
in
2nd harmonic distortion
3rd harmonic distortion
3rd order intermodulation products
Input referred voltage noise
Input referred noise current
Input referred noise current
2 VPP, 5 MHz, SOT-23-6
2 VPP, 20 MHz, SOT-23-6
2 VPP, 50 MHz, SOT-23-6
2 VPP, 5 MHz, SOT-23-6
2 VPP, 20 MHz, SOT-23-6
2 VPP, 50 MHz, SOT-23-6
50 MHz, PO = 5 dBm/ tone
>1 MHz
Inverting Pin
>1 MHz
Non-Inverting Pin
>1 MHz
−87
−69
−60
−100
−90
−70
−80
2.3
18.5
3
u
VOS
TCVOS
Input offset voltage
Input offset voltage average drift
IB
Input bias current
TCIB
Input bias current average drift
(5)
Non-Inverting (6)
Inverting (6)
Non-Inverting (5)
Inverting (5)
±1.5
22
−7
−2
+30
−70
MAX (2) UNIT
MHz
MHz
deg
ns
ns
ns
ns
V/µs
ns
dBc
dBc
dBc
nV/√Hz
pA/√Hz
pA/√Hz
±7
±9
mV
µV/°C
–20
–23
µA
±35
±44
nA/°C
(1) Electrical Characteristics values apply only for factory testing conditions at the temperature indicated. Factory testing conditions result in
very limited self-heating of the device such that TJ = TA. Parametric performance is indicated in the electrical tables under conditions of
internal self-heating where TJ > TA.
(2) Limits are 100% production tested at 25°C. Limits over the operating temperature range are specified through correlation using
Statistical Quality Control (SQC) methods.
(3) Typical numbers are the most likely parametric norm.
(4) Slew rate is the average of the rising and falling edges.
(5) Drift determined by dividing the change in parameter at temperature extremes by the total temperature change.
(6) Negative input current implies current flowing out of the device.
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