Datasheet
LMH6703
www.ti.com
SNOSAF2D –FEBRUARY 2005–REVISED MARCH 2013
Electrical Characteristics
(1)
Unless otherwise specified, all limits specified for T
J
= 25°C, A
V
= +2, V
S
= ±5V, R
L
= 100Ω, R
F
= 560Ω, SD = Floating.
Boldface limits apply at the temperature extremes.
Symbol Parameter Conditions Min
(2)
Typ
(3)
Max
(2)
Units
Frequency Domain Performance
SSBW -3 dB Bandwidth V
OUT
= 0.5 V
PP
, A
V
= +1 1800
V
OUT
= 0.5 V
PP
, A
V
= +2 1200
MHz
LSBW V
OUT
= 2 V
PP
750
V
OUT
= 4 V
PP
500
GF 0.1 dB Gain Flatness V
OUT
= 0.5 V
PP
150
MHz
V
OUT
= 2 V
PP
150
DG Differential Gain R
L
= 150Ω, 4.43 MHz 0.01 %
DP Differential Phase R
L
= 150Ω, 4.43 MHz 0.02 deg
Time Domain Response
t
r
Rise Time 2V Step, 10% to 90% 0.5 ns
6V Step, 10% to 90% 1.05 ns
t
f
Fall Time 2V Step, 10% to 90% 0.5 ns
6V Step, 10% to 90% 1.05 ns
SR Slew Rate 4V Step, 10% to 90%
(4)
4200 V/µs
6V Step, 10% to 90%
(4)
4500 V/µs
t
s
Settling Time 2V Step, V
OUT
within 0.1% 10 ns
Distortion And Noise Response
HD2 2
nd
Harmonic Distortion 2 V
PP
, 5 MHz, SOT-23-6 −87
2 V
PP
, 20 MHz, SOT-23-6 −69 dBc
2 V
PP
, 50 MHz, SOT-23-6 −60
HD3 3
rd
Harmonic Distortion 2 V
PP
, 5 MHz, SOT-23-6 −100
2 V
PP
, 20 MHz, SOT-23-6 −90 dBc
2 V
PP
, 50 MHz, SOT-23-6 −70
IMD 3
rd
Order Intermodulation Products 50 MHz, P
O
= 5 dBm/ tone −80 dBc
e
n
Input Referred Voltage Noise >1 MHz 2.3 nV/√Hz
i
n
Input Referred Noise Current Inverting Pin 18.5 pA/√Hz
>1 MHz
Input Referred Noise Current Non-Inverting Pin 3 pA/√Hz
>1 MHz
Static, DC Performance
V
OS
Input Offset Voltage ±1.5 ±7
mV
±9
TCV
OS
Input Offset Voltage Average Drift
(5)
22 µV/°C
Input Bias Current Non-Inverting
(6)
−7 ±20
±23
I
B
µA
Inverting
(6)
−2 ±35
±44
Non-Inverting
(5)
+30
TCI
B
Input Bias Current Average Drift nA/°C
Inverting
(5)
−70
(1) Electrical Table 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 T
J
= T
A
. Parametric performance is indicated in the electrical tables under conditions of
internal self-heating where T
J
> T
A
.
(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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