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LMH6657_16 Datasheet, PDF (7/35 Pages) Texas Instruments – 270-MHz Single Supply, Single and Dual Amplifiers
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LMH6657, LMH6658
SNOSA35G – AUGUST 2002 – REVISED JULY 2015
6.6 Electrical Characteristics, ±5 V
Unless otherwise specified, all limits ensured for at TJ = 25°C, V+ = 5 V, V− = −5 V, VCM = VO, and RL = 100 Ω (or as
specified) tied to 0 V.
PARAMETER
TEST CONDITIONS
MIN (1)
TYP (2) MAX(1)
UNIT
GB
Gain Bandwidth Product
SSBW −3-dB BW
GFP
Frequency Response
Peaking
VOUT < 200 mVPP
AV = +1, VOUT = 200 mVPP
AV = +2 or −1, VOUT = 200 mVPP
AV = +2, VOUT = 200 mVPP,
DC to 100 MHz
140
220
270
100
1
MHz
MHz
dB
GFR
Frequency Response
Rolloff
AV = +2, VOUT = 200 mVPP,
DC to 100 MHz
0.9
dB
LPD1°
GF0.1dB
PBW
1° Linear Phase Deviation
0.1-dB Gain Flatness
Full Power Bandwidth
DG
Differential Gain
DP
Differential Phase
TIME DOMAIN RESPONSE
AV = +2, VOUT = 200mVPP, ±1°
AV = +2, ±0.1 dB, VOUT = 200 mVPP
−1 dB, VOUT = 8 VPP, AV = −1
NTSC, RL = 150 Ω, Pos. or Neg. Video
NTSC,RL = 150 Ω, Pos. or Neg. Video
30
20
30
0.03%
0.1
MHz
MHz
MHz
deg
tr
Rise and Fall Time
AV = +2, VOUT = 500 mVPP
AV = −1, VOUT = 500 mVPP
OS
Overshoot, Undershoot AV = +2, VOUT = 500 mVPP
ts
Settling Time
VO = 5 VPP, ±0.1%, RL =500 Ω,
AV = −1
SR
Slew Rate(3)
AV = −1, VO = 8 VPP
AV = +2, VO = 8 VPP
DISTORTION AND NOISE RESPONSE
HD2
HD3
2nd Harmonic Distortion
3rd Harmonic Distortion
f = 5 MHz, VO = 2 VPP, AV = -1
f = 5 MHz, VO = 2 VPP, AV = -1
THD Total Harmonic Distortion f = 5 MHz, VO = 2 VPP, AV = -1
Vn
Input-Referred Voltage
Noise
f = 100 KHz
f = 1 KHz
3.3
3.3
16%
35
700
500
−70
−57
−55.5
11
19
ns
ns
V/µs
dBc
dBc
dBc
nV/√Hz
In
Input-Referred Current
Noise
f = 100 KHz
f = 1 KHz
2.1
pA/√Hz
7.5
XTLKA
Cross-Talk Rejection
(LMH6658)
STATIC, DC PERFORMANCE
f = 5 MHz, RL (SND) = 100 Ω
RCV: RF = RG = 1 k
69
dB
AVOL
Large Signal Voltage Gain
VO = −3.75 V to 3.75 V, RL = 2 k
VO = −3.5 V to 3.5 V, RL = 150 Ω
VO = −3 V to 3 V, RL = 50 Ω
CMRR ≥ 50 dB
87
100
80
90
dB
75
85
−5.2
−5.5
CMVR
Input Common-Mode
Voltage Range
At the temperature extremes
−5.1
V
3
3.3
At the temperature extremes
2.8
VOS
Input Offset Voltage
TC VOS
Input Offset Voltage
Average Drift
Apply at the temperature extremes
See (4)
±1
±5
mV
±7
±2
μV/C
(1) All limits are ensured by testing or statistical analysis.
(2) Typical values represent the most likely parametric norm.
(3) Slew rate is the "worst case" of the rising and falling slew rates.
(4) Drift determined by dividing the change in parameter at temperature extremes by the total temperature change.
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