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ISL70517SEH Datasheet, PDF (8/27 Pages) Intersil Corporation – Precision test and measurement
ISL70517SEH
Electrical Specifications VCC = VCO = 18V, VEE = VEO = -18V, VCM = 0V, RL = 10kΩRFB = RIN = 30.1kΩTA = +25°C, unless otherwise
specified. Boldface limits apply across the operating temperature range, -55°C to +125°C and across a total ionizing dose of 75krad(Si) at +25°C with
exposure at a low dose rate of <10mrad(Si)/s, unless otherwise specified. (Continued)
PARAMETER
DESCRIPTION
TEST CONDITIONS
MIN
MAX
(Note 5)
TYP
(Note 5) UNIT
AC SPECIFICATIONS
eN(RTO)
Total Noise Voltage Noise Density
Referred to Output
f = 1kHz, (Note 14)
96
nV/√Hz
eN(I)
eN(FB)
eN VP-P
iN(I)
iN(IERR)
iNIERR RMS
Input Noise Voltage Density
Feedback Noise Voltage Density
Input VP-P Noise Voltage
Input Noise Current Density
Total Internal Noise Current Density
0.1Hz to 10Hz Total Internal RMS Noise
Current
f = 1kHz, (Note 14)
f = 1kHz, (Note 14)
f = 0.1Hz to 10Hz
f = 1kHz, (Note 14)
f = 1kHz, (Note 14)
f = 0.1Hz to 10Hz
8.6
nV/√Hz
8.6
nV/√Hz
6.6
µVP-P
150
fA/√Hz
2.6
pA/√Hz
4
pARMS
-3dB BW
-3dB Bandwidth vs Closed Loop Gain,
RFB = 30.1kΩ; RIN = 301kΩ; G = 0.1
5.5
MHz
RFB = 30.1k
RFB = 30.1kΩ; RIN = 30.1kΩ; G = 1
2.6
MHz
RFB = 30.1kΩ; RIN = 3.01kΩ; G = 10
2.2
MHz
RFB = 30.1kΩ; RIN = 301Ω; G = 100
2.0
MHz
RFB = 30.1kΩ; RIN = 30.1Ω;
G = 1000
0.3
MHz
-3dB BW
-3dB Bandwidth vs Closed Loop Gain,
RFB = 121k
SR
Slew Rate
RFB = 121kΩ; RIN = 1.21MΩ; G = 0.1
RFB = 121kΩ; RIN = 121kΩ; G = 1
RFB = 121kΩ; RIN = 12.1kΩ; G = 10
RFB = 121kΩ; RIN = 1.21kΩ; G = 100
RFB = 121kΩ; RIN = 121Ω; G = 1000
5.0
1.4
0.5
0.45
0.4
4
MHz
MHz
MHz
MHz
MHz
V/µs
tS
Settling Time to 0.01%
VOUT = ±2.4V, RF = 30.1kΩ
3
µs
VOUT = ±9.6V, RF = 121kΩ
11
µs
NOTES:
5. Compliance to datasheet limits is assured by one or more methods: production test, characterization, and/or design.
6. Differential Gain (AV) = RFB/RIN.
7. ±VOUT, clipping ~ IRF*RFB.
8. IBVFB = (VOSOUT - (RFB/RIN)*VOSIN - VOSFB)/RFB.
9. Compliance to datasheet limits is assured by design simulation.
10. VCC, VCO = 4V, 5V, 15V, 18V, VEE, VEO = -4V, -5V, -15V, -18V.
11. VCC = 18V, VEE = -18V, VCO = 1.5V, VEO = -1.5V.
12. VCC, VCO = 5V, 18V, VEE, VEO = -5V, -18V.
13. VCC, VCO = 18V, 21V, VEE, VEO = -18V, -21V.
14. Total noise calculated with Equation 17 on page 22.
15. VCC, VCO = 5V, 15V, VEE, VEO = -5V, -15V. Test added after initial product release.
16. Rejection ratio numbers are reported as absolute values.
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FN8699.4
December 15, 2016