Datasheet
OPA3684
3
SBOS241C
www.ti.com
OPA3684ID, IDBQ
0
°
C to –40
°
C to
MIN/
TEST
PARAMETER CONDITIONS +25°C +25°C
(1)
70°C
(2)
+85°C
(2)
UNITS MAX
LEVEL
(3)
TYP MIN/MAX OVER TEMPERATURE
ELECTRICAL CHARACTERISTICS: V
S
= ±5V
Boldface limits are tested at +25°C.
R
F
= 800Ω, R
L
= 100Ω, and G = +2, unless otherwise noted.
AC PERFORMANCE (see Figure 1)
Small-Signal Bandwidth (V
O
= 0.5V
PP
) G = +1, R
F
= 800Ω 250 MHz typ C
G = +2, R
F
= 800Ω 170 120 118 117 MHz min B
G = +5, R
F
= 800Ω 138 MHz typ C
G = +10, R
F
= 800Ω 120 MHz typ C
G = +20, R
F
= 800Ω 95 MHz typ C
Bandwidth for 0.1dB Gain Flatness G = +2, V
O
= 0.5V
PP
, R
F
= 800Ω 19 16 14 14 MHz min B
Peaking at a Gain of +1 R
F
= 800Ω, V
O
= 0.5V
PP
1.4 4.8 5.9 6.3 dB max B
Large-Signal Bandwidth G = +2, V
O
= 4V
PP
90 MHz typ C
Slew Rate G = –1, V
O
= 4V Step 780 675 650 575 V/µsminB
G = +2,V
O
= 4V Step 750 680 660 650 V/µsminB
Rise-and-Fall Time G = +2, V
O
= 0.5V Step 3 ns typ C
G = +2, V
O
= 4VStep 6.8 ns typ C
Harmonic Distortion G = +2, f = 5MHz, V
O
= 2V
PP
2nd-Harmonic R
L
= 100Ω –67 –59 –59 –58 dBc max B
R
L
≥ 1kΩ –82 –66 –65 –65 dBc max B
3rd-Harmonic R
L
= 100Ω –70 –66 –65 –65 dBc max B
R
L
≥ 1kΩ –84 –82 –81 –81 dBc max B
Input Voltage Noise f > 1MHz 3.7 4.1 4.2 4.4 nV/√Hz max B
Noninverting Input Current Noise f > 1MHz 9.4 11 12 12.5 pA/√Hz max B
Inverting Input Current Noise f > 1MHz 17 18 18.5 19 pA/√Hz max B
Differential Gain G = +2, NTSC, V
O
= 1.4V
P
, R
L
= 150Ω 0.04 % typ C
Differential Phase G = +2, NTSC, V
O
= 1.4V
P
, R
L
= 150Ω 0.02 deg typ C
All Hostile Crosstalk 2 Channels, f = 5MHz 70 dB typ C
3rd-Channel Measured
DC PERFORMANCE
(4)
Open-Loop Transimpedance Gain (Z
OL
)
V
O
= 0V, R
L
= 1kΩ 355 160 155 153 kΩ min A
Input Offset Voltage V
CM
= 0V ±1.5 ±3.9 ±4.5 ±4.7 mV max A
Average Offset Voltage Drift V
CM
= 0V ±12 ±12 µV/°CmaxB
Noninverting Input Bias Current V
CM
= 0V ±5.0 ±12 ±13.5 ±14 µAmaxA
Average Noninverting Input Bias Current Drift V
CM
= 0V ±25 ±30 nA/°CmaxB
Inverting Input Bias Current V
CM
= 0V ±5.0 ±17 ±18.5 ±19.5 µAmaxA
Average Inverting Input Bias Current Drift V
CM
= 0V ±35 ±40 nA°/C max B
INPUT
Common-Mode Input Range
(5)
(CMIR) ±3.75 ±3.65 ±3.65 ±3.6 V min A
Common-Mode Rejection Ratio (CMRR) V
CM
= 0V 60 53 52 52 dB min A
Noninverting Input Impedance 50 || 2 kΩ || pF typ C
Inverting Input Resistance
(
R
I
) Open-Loop, DC 4.0 Ω typ C
OUTPUT
Voltage Output Swing 1kΩ Load ±4.1
±3.9 ±3.9 ±3.8 V min A
Current Output, Sourcing V
O
= 0 160 120 115 110 mA min A
Current Output, Sinking V
O
= 0 –120 –100 –95 –90 mA min A
Closed-Loop Output Impedance G = +2, f = 100kHz 0.006 Ω typ C
DISABLE (Disabled LOW)
Power-Down Supply Current (+V
S
)V
DIS
= 0 (all channels) –300 –500 –580 –600 µAmaxA
Disable Time V
IN
= +1V, G
= +2 4 ms typ C
Enable Time V
IN
= +1V, G
= +2 40 ns typ C
Off Isolation G = +2, 5MHz 70 dB typ C
Output Capacitance in Disable 1.7 pF typ C
Enable Voltage 3.4 3.5 3.6 3.7 V min A
Disable Voltage 1.8 1.7 1.6 1.5 V max A
Control Pin Input Bias Current (DIS) V
DIS
= 0V/Channel 80 120 130 135 µAmaxA
POWER SUPPLY
Specified Operating Voltage ±5 V typ C
Maximum Operating Voltage Range
±6 ±6 ±6VmaxA
Minimum Operating Voltage Range ±1.4 V min C
Max Quiescent Current V
S
= ±5V/per Channel 1.7 1.8 1.85 1.85 mA max A
Min Quiescent Current V
S
= ±5V/per Channel 1.7 1.6 1.55 1.45 mA min A
Power-Supply Rejection Ratio (–PSRR) Input Referred 60 54 53 53 dB typ A
TEMPERATURE RANGE
Specification: D, DBQ
–40 to +85
°C typ C
Thermal Resistance,
θ
JA
Junction-to-Ambient
D SO-14 100 °C/W typ C
DBQ SSOP-16 100 °C/W typ C
NOTES: (1) Junction temperature = ambient for +25°C tested specifications. (2) Junction temperature = ambient at low temperature limit, junction temperature = ambient
+2°C at high temperature limit for over temperature tested specifications. (3) Test levels: (A) 100% tested at +25°C. Over-temperature limits by characterization and
simulation. (B) Limits set by characterization and simulation. (C) Typical value only for information. (4) Current is considered positive out-of-node. V
CM
is the input
common-mode voltage. (5) Tested < 3dB below minimum specified CMR at ± CMIR limits.