tle2072, tle2072a, tle2072y excalibur low-noise high-speed jfet
Transcript of tle2072, tle2072a, tle2072y excalibur low-noise high-speed jfet
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
Copyright 1994, Texas Instruments Incorporated
5–1POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
• 40-V/µs Slew Rate Typ
• Low Noise17 nV/√Hz Max at f = 10 kHz11.6 nV/√Hz Typ at f = 10 kHz
• High Gain-Bandwidth Produc t . . . 10 MHz
• ±30-mA Minimum Short-Circuit OutputCurrent
• Wide Supply Rang e . . . ± ± • Input Range Includes the Positive Supply
• Macromodel Included
• Fast Settling Time Using 10-V Step400 ns to 10 mV Typ1.5 µs to 1 mV Typ
Vn
– E
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ut N
oise
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25
15
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10 100 1 k 10 k
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f – Frequency – Hz
EQUIVALENT INPUT NOISE VOLTAGEvs
FREQUENCY
35
nV
nV/
Hz VCC± = ±15 V
TA – Free-Air Temperature – °C
10
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7– 75 – 55 – 35 –15 5 25 45
Gai
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idth
Pro
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– M
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GAIN-BANDWIDTH PRODUCTvs
FREE-AIR TEMPERATURE
13
65 85 105 125
f = 100 kHzVIC = 0VO = 0RL = 2 kΩCL = 100 pF
VCC± = ±15 V
VCC± = ±5 V
VIC = 0RS = 20 ΩTA = 25°C
description
The TLE2072 and TLE2072A are low-noise, high-performance, internally compensated JFET-input dualoperational amplifiers built using Texas Instruments complementary bipolar Excalibur process. These devicescombine low noise with outstanding output drive capability, high slew rate, and wide bandwidth.
AVAILABLE OPTIONS
TV
PACKAGED DEVICESCHIP
TAVIOmaxAT 25°C
SMALLOUTLINE
(D)
CHIPCARRIER
(FK)
CERAMICDIP(JG)
PLASTICDIP(P)
CHIPFORM
(Y)
0°C to 70°C 3.5 mV TLE2072ACD— —
TLE2072ACP —0°C to 70°C 3.5 mV
6 mVTLE2072ACDTLE2072CD
— —TLE2072ACPTLE2072CP TLE2072Y
–40°C to 85°C 3.5 mV TLE2072AID— —
TLE2072AIP—–40°C to 85°C 3.5 mV
6 mVTLE2072AIDTLE2072ID
— —TLE2072AIPTLE2072IP
—
–55°C to 125°C3.5 mV
—TLE2072AMFK TLE2072AMJG
— —–55°C to 125°C 6 mV — TLE2072MFK TLE2072MJG — —
The D packages are available taped and reeled. Add R suffix to device type (e.g., TLE2072ACDR). Chip-form versionsare tested at TA = 25°C. For chip-form orders, contact your local TI sales office.
PRODUCTION DATA information is current as of publication date.Products conform to specifications per the terms of Texas Instrumentsstandard warranty. Production processing does not necessarily includetesting of all parameters.
On products compliant to MIL-STD-883, Class B, all parameters aretested unless otherwise noted. On all other products, productionprocessing does not necessarily include testing of all parameters.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–2 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
description (continued)
The design features a 28-V/µs minimum slew rate, which results in a high-power bandwidth. A low audio-bandnoise of 28 nV/√Hz is typical with a 55 nV/√Hz maximum at 10 Hz. Settling time to 0.1% of a 10-V step(1-kΩ/100-pF load) is approximately 400 ns. Gain-bandwidth product is typically 10 MHz with an 8 MHzminimum. As such, the TLE2072 and TLE2072A offer significant speed and noise advantages at a low 1.5-mAtypical supply current per channel.
The input current characteristics traditionally associated with JFET-input amplifiers have been maintained. Inputoffset voltage is graded to a 6 mV and 3.5 mV maximum for the TLE2072 and TLE2072A, respectively. Typically,temperature coefficient of input offset voltage is 2.4 µV/°C and typical CMRR and kSVR are 98 dB and 99 dB,respectively. Device performance is relatively independent of supply voltage over the wide ±2.25-V to ±19-Vrange. The input common-mode voltage range extends from the positive supply down to VCC– + 4 V withoutsignificant degradation to dynamic performance. Maximum peak output voltage swing is from VCC+ – 1 V toVCC– + 1 V under light current loading conditions. The output is capable of sourcing and sinking currents to atleast 30 mA and can sustain shorts to either supply. Care must be taken to ensure that maximum powerdissipation is not exceeded.
Both the TLE2072 and TLE2072A are available in a wide variety of packages, including both theindustry-standard 8-pin small-outline version and chip form for high-density system applications. The C-suffixdevices are characterized for operation from 0°C to 70°C, the I-suffix devices over the –40°C to 85°C range,and the M-suffix devices over the full military temperature range of –55°C to 125°C.
1
2
3
4
8
7
6
5
1OUT1IN–1IN +VCC–
VCC+2OUT2IN–2IN+
D, JG, OR P PACKAGE(TOP VIEW)
3 2 1 20 19
9 10 11 12 13
4
5
6
7
8
18
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15
14
NC2OUTNC2IN–NC
NC1IN–
NC1IN+
NC
FK PACKAGE(TOP VIEW)
NC
1OU
TN
C
NC
NC
NC
VN
C
NC – No internal connection
2IN
+
CC
–
VC
C +
symbol
+
–OUT
IN+
IN–
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERSSLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–3POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TLE2072Y chip information
This chip, when properly assembled, displays characteristics similar to the TLE2072. Thermal compression orultrasonic bonding may be used on the doped-aluminum bonding pads. Chips may be mounted with conductiveepoxy or a gold-silicon preform.
BONDING PAD ASSIGNMENTS
CHIP THICKNESS: 15 TYPICAL
BONDING PADS: 4 × 4 MINIMUM
TJmax = 150°C
TOLERANCES ARE ±10%.
ALL DIMENSIONS ARE IN MILS.
PIN (4) IS INTERNALLY CONNECTEDTO BACKSIDE OF THE CHIP.
+
–1OUT
1IN+
1IN–
VCC+
(4)
(6)
(3)
(2)
(5)
(1)
(7)
(8)
–
+
2OUT2IN+
2IN–
VCC–
80
90
(1)
(2)
(3)(4)
(5)
(6)
(7)(8)
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERSSLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–4 POST OFFICE BOX 655303 DALLAS, TEXAS 75265•
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Q2
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Q4
Q3
R1
Q8
R2
Q11 R3
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Q16
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Q27
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57 37 5 11
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–5POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
absolute maximum ratings over operating free-air temperature range (unless otherwise noted) †
Supply voltage, VCC+ (see Note 1) 19 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Supply voltage, VCC– (see Note 1) –19 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Differential input voltage range, VID (see Note 2) VCC+ to VCC–. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input voltage range, VI (any input) VCC+ to VCC–. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Input current, II (each input) ±1 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Output current, IO (each output) ±80 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Total current into VCC+ 160 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Total current out of VCC– 160 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Duration of short-circuit current at (or below) 25°C (see Note 3) unlimited. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Continuous total dissipation See Dissipation Rating Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Operating free-air temperature range, TA: C suffix 0°C to 70°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I suffix –40°C to 85°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . M suffix –55°C to 125°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Storage temperature range –65°C to 150°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Case temperature for 60 seconds: FK package 260°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds: D or P package 260°C. . . . . . . . . . . . . . . . . Lead temperature 1,6 mm (1/16 inch) from case for 60 seconds: JG package 300°C. . . . . . . . . . . . . . . . . . . .
† Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, andfunctional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is notimplied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
NOTES: 1. All voltage values except differential voltages are with respect to the midpoint between VCC+ and VCC–.2. Differential voltages are at IN+ with respect to IN–.3. The output can be shorted to either supply. Temperatures and/or supply voltages must be limited to ensure that the maximum
dissipation rate is not exceeded.
DISSIPATION RATING TABLE
PACKAGETA ≤ 25°C DERATING FACTOR TA = 70°C TA = 85°C TA = 125°C
PACKAGE APOWER RATING ABOVE TA = 25°C
APOWER RATING
APOWER RATING
APOWER RATING
D 725 mW 5.8 mW/°C 464 mW 377 mW 145 mW
FK 1375 mW 11.0 mW/°C 880 mW 715 mW 275 mW
JG 1050 mW 8.4 mW/°C 672 mW 546 mW 210 mW
P 1000 mW 8.0 mW/°C 640 mW 344 mW 200 mW
recommended operating conditions
C SUFFIX I SUFFIX M SUFFIXUNIT
MIN MAX MIN MAX MIN MAXUNIT
Supply voltage, VCC± ±2.25 ±19 ±2.25 ±19 ±2.25 ±19 V
Common-mode input voltage VICVCC± = ±5 V –0.9 5 –0.8 5 –0.8 5
VCommon-mode input voltage, VICVCC± = ±15 V –10.9 15 –10.8 15 –10.8 15
V
Operating free-air temperature, TA 0 70 –40 85 –55 125 °C
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–6 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 0.9 6 0.65 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 7.8 5.3mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω
Full range 2.3 25 2.3 25 µV/°C
IIO Input offset currentV 0 V 0
25°C 5 100 5 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 1.4 1.4 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 15 175 15 175 pA
IIB Input bias currentFull range 5 5 nA
VC d i
R 50 Ω
25°C5 5 5 5
VVC d i
R 50 Ω
25°C5to
5to
5to
5to
VVICRCommon-mode input
RS = 50 Ω–1 –1.9 –1 –1.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll5 5
Vg g
Full range5to
5tog
–0.9 –0.9
VM i i i k
IO = –200 µA25°C 3.8 4.1 3.8 4.1
VVM i i i k
IO = –200 µAFull range 3.7 3.7
VVOMMaximum positive peak
IO = –2 mA25°C 3.5 3.9 3.5 3.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 3.4 3.4
V
IO = –20 mA25°C 1.5 2.3 1.5 2.3
IO = –20 mAFull range 1.5 1.5
VM i i k
IO = 200 µA25°C –3.8 –4.2 –3.8 –4.2
VVM i i k
IO = 200 µAFull range –3.7 –3.7
VVOMMaximum negative peak
IO = 2 mA25°C –3.5 –4.1 –3.5 –4.1
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –3.4 –3.4
V
IO = 20 mA25°C –1.5 –2.4 –1.5 –2.4
IO = 20 mAFull range –1.5 –1.5
AL i l diff i l
V 2 3 V
RL = 600 Ω25°C 80 91 80 91
dBAL i l diff i l
V 2 3 V
RL = 600 ΩFull range 79 79
dBAVDLarge-signal differential
VO = ± 2 3 V RL = 2 kΩ25°C 90 100 90 100
dBAVDLarge signal differentialvoltage amplification
VO = ± 2.3 V RL = 2 kΩFull range 89 89
dB
RL = 10 kΩ25°C 95 106 95 106
RL = 10 kΩFull range 94 94
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 11 11pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop output impedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 70 89 70 89
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 68 68
dB
kSVRSupply-voltage rejection VCC± = ±5 V to ±15 V, 25°C 82 99 82 99
dBkSVRSupply voltage rejectionratio(∆VCC± /∆VIO)
VCC± ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 80 80
dB
ICCSupply current
VO = 0 No load25°C 2.7 2.9 3.6 2.7 2.9 3.6
mAICCpp y
(both channels) VO = 0, No loadFull range 3.6 3.6
mA
† Full range is 0°C to 70°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–7POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)(continued)
PARAMETER TEST CONDITIONS T †TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOSShort-circuit output
VO = 0VID = 1 V
25°C–35 –35
mAIOSShort circuit output current
VO = 0VID = –1 V
25°C45 45
mA
operating characteristics at specified free-air temperature, V CC± = ±5 V
PARAMETER TEST CONDITIONS TA†TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 2 3 V
25°C 35 35
V/SR+ Positive slew rateVO(PP) = ±2.3 V,AVD = –1 RL = 2 kΩ
Fullrange
22 22V/µs
SR N i l
AVD = –1, RL = 2 kΩ,CL = 100 pF, See Figure 1 25°C 38 38
V/SR– Negative slew rateCL = 100 pF, See Figure 1
Fullrange
22 22V/µs
ts Settling time
AVD = –1,2-V step,
To 10 mV25°C
0.25 0.25µsts Settling time 2 V step,
RL = 1 kΩ,CL = 100 pF To 1 mV
25°C0.4 0.4
µs
VnEquivalent input noise
R 20 Ω
f = 10 Hz25°C
28 55 28 55nV/√HzVn
Equivalent input noisevoltage
R 20 Ωf = 10 kHz
25°C11.6 17 11.6 17
nV/√Hz
VP k k i l
RS = 20 Ω,S Fi 3
f = 10 Hz to
25°C6 6
VVN(PP)Peak-to-peak equivalent
SSee Figure 3
f 10 Hz to10 kHz
25°C6 6
µVVN(PP)p q
input noise voltage f = 0.1 Hz to10 Hz
25°C0.6 0.6
µV
InEquivalent input noisecurrent
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic distortion
VO(PP) = 5 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 013% 0 013%THD + N
Total harmonic distortionplus noise f = 1 kHz, RL = 2 kΩ,
RS = 25 Ω25°C 0.013% 0.013%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 9 4 9 4 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 9.4 9.4 MHz
BOMMaximum output-swing VO(PP) = 4 V, AVD = –1,
25°C 2 8 2 8 MHzBOMMaximum output swingbandwidth
VO(PP) 4 V, AVD 1,RL = 2 kΩ , CL = 25 pF
25°C 2.8 2.8 MHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 56° 56°φmg y
gainI , L ,
CL = 25 pF, See Figure 2 25°C 56° 56°
† Full range is 0°C to 70°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–8 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 1.1 6 0.7 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 7.8 5.3mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω
Full range 2.4 25 2.4 25 µV/°C
IIO Input offset currentV 0 V 0
25°C 6 100 6 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 1.4 1.4 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 20 175 20 175 pA
IIB Input bias currentFull range 5 5 nA
VC d i
R 50 Ω
25°C15 15 15 15
VVC d i
R 50 Ω
25°C15to
15to
15to
15to
VVICRCommon-mode input
RS = 50 Ω–11 –11.9 –11 –11.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll15 15
Vg g
Full range15to
15tog
–10.9 –10.9
VM i i i k
IO = –200 µA25°C 13.8 14.1 13.8 14.1
VVM i i i k
IO = –200 µAFull range 13.6 13.6
VVOMMaximum positive peak
IO = –2 mA25°C 13.5 13.9 13.5 13.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 13.4 13.4
V
IO = –20 mA25°C 11.5 12.3 11.5 12.3
IO = –20 mAFull range 11.5 11.5
VM i i k
IO = 200 µA25°C –13.8 –14.2 –13.8 –14.2
VVM i i k
IO = 200 µAFull range –13.7 –13.7
VVOMMaximum negative peak
IO = 2 mA25°C –13.5 –14 –13.5 –14
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –13.4 –13.4
V
IO = 20 mA25°C –11.5 –12.4 –11.5 –12.4
IO = 20 mAFull range –11.5 –11.5
AL i l diff i l
V 10 V
RL = 600 Ω25°C 80 96 80 96
dBAL i l diff i l
V 10 V
RL = 600 ΩFull range 79 79
dBAVDLarge-signal differential
VO = ± 10 V RL = 2 kΩ25°C 90 109 90 109
dBAVDLarge signal differentialvoltage amplification
VO = ± 10 V RL = 2 kΩFull range 89 89
dB
RL = 10 kΩ25°C 95 118 95 118
RL = 10 kΩFull range 94 94
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 7.5 7.5pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop outputimpedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 80 98 80 98
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 79 79
dB
kSVRSupply-voltage rejection VCC± = ±5 V to ±15 V, 25°C 82 99 82 99
dBkSVRSupply voltage rejectionratio (∆VCC± /∆VIO)
VCC± ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 81 81
dB
ICCSupply current
VO = 0 No load25°C 2.7 3.1 3.6 2.7 3.1 3.6
mAICCpp y
(both channels) VO = 0, No loadFull range 3.6 3.6
mA
† Full range is 0°C to 70°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–9POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)(continued)
PARAMETER TEST CONDITIONS T †TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOS Short-circuit output current VO = 0VID = 1 V
25°C–30 –45 –30 –45
mAIOS Short-circuit output current VO = 0VID = –1 V
25°C30 48 30 48
mA
operating characteristics at specified free-air temperature, V CC± = ±15 V
PARAMETER TEST CONDITIONS TA†TLE2072C TLE2072AC
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 10 V
25°C 28 40 28 40
V/SR+ Positive slew rateVO(PP) = 10 V,AVD = –1 RL = 2 kΩ
Fullrange
25 25V/µs
SR N i l
AVD = –1, RL = 2 kΩ,CL = 100 pF, See Figure 1 25°C 30 45 30 45
V/SR– Negative slew rateCL = 100 pF, See Figure 1
Fullrange
25 25V/µs
ts Settling time
AVD = –1,10-V step,
To 10 mV25°C
0.4 0.4µsts Settling time 10 V step,
RL = 1kΩ,CL = 100 pF To 1 mV
25°C1.5 1.5
µs
VnEquivalent input noise
R 20 Ω
f = 10 Hz25°C
28 55 28 55nV/√HzVn
Equivalent input noisevoltage
R 20 Ω
f = 10 kHz25°C
11.6 17 11.6 17nV/√Hz
VP k t k
RS = 20 Ω, f = 10 Hz to
25°C6 6
VVN(PP)
Peak-to-peakequivalent input noise
S ,See Figure 3
f 10 Hz to10 kHz
25°C6 6
µVVN(PP) equivalent input noisevoltage f = 0.1 Hz to
10 Hz
25°C0.6 0.6
µV
InEquivalent input noisecurrent
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic
VO(PP) = 20 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 008% 0 008%THD + N
Total harmonicdistortion plus noise f = 1 kHz, RL = 2 kΩ,
RS = 25 Ω25°C 0.008% 0.008%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 8 10 8 10 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 8 10 8 10 MHz
BOMMaximum output-swing VO(PP) = 20 V, AVD = –1,
25°C 478 637 478 637 kHzBOMMaximum output swingbandwidth
VO(PP) 20 V, AVD 1,RL = 2 kΩ, CL = 25 pF
25°C 478 637 478 637 kHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 57° 57°φmg y
gainI , L ,
CL = 25 pF, See Figure 2 25°C 57° 57°
† Full range is 0°C to 70°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–10 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 0.9 6 0.65 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 9.1 6.4mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω,
Full range 2.4 25 2.4 25 µV/°C
IIO Input offset currentV 0 V 0
25°C 5 100 5 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 5 5 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 15 175 15 175 pA
IIB Input bias currentFull range 10 10 nA
VC d i
R 50 Ω
25°C5 5 5 5
VVC d i
R 50 Ω
25°C5to
5to
5to
5to
VVICRCommon-mode input
RS = 50 Ω–1 –1.9 –1 –1.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll5 5
Vg g
Full range5to
5tog
–0.8 –0.8
VM i i i k
IO = –200 µA25°C 3.8 4.1 3.8 4.1
VVM i i i k
IO = –200 µAFull range 3.7 3.7
VVOMMaximum positive peak
IO = –2 mA25°C 3.5 3.9 3.5 3.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 3.4 3.4
V
IO = –20 mA25°C 1.5 2.3 1.5 2.3
IO = –20 mAFull range 1.5 1.5
VM i i k
IO = 200 µA25°C –3.8 –4.2 –3.8 –4.2
VVM i i k
IO = 200 µAFull range –3.7 –3.7
VVOMMaximum negative peak
IO = 2 mA25°C –3.5 –4.1 –3.5 –4.1
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –3.4 –3.4
V
IO = 20 mA25°C –1.5 –2.4 –1.5 –2.4
IO = 20 mAFull range –1.5 –1.5
AL i l diff i l
V 2 3 V
RL = 600 Ω25°C 80 91 80 91
dBAL i l diff i l
V 2 3 V
RL = 600 ΩFull range 79 79
dBAVDLarge-signal differential
VO = ± 2 3 V RL = 2 kΩ25°C 90 100 90 100
dBAVDLarge signal differentialvoltage amplification
VO = ± 2.3 V RL = 2 kΩFull range 89 89
dB
RL = 10 kΩ25°C 95 106 95 106
RL = 10 kΩFull range 94 94
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 11 11pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop output impedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 70 89 70 89
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 68 68
dB
kSVRSupply-voltage rejection VCC± = ±5 V to ±15 V, 25°C 82 99 82 99
dBkSVRSupply voltage rejectionratio (∆VCC± /∆VIO)
VCC± ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 80 80
dB
ICCSupply current
VO = 0 No load25°C 2.7 2.9 3.6 2.7 2.9 3.6
mAICCpp y
(both channels) VO = 0, No loadFull range 3.6 3.6
mA
† Full range is –40°C to 85°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–11POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)(continued)
PARAMETER TEST CONDITIONS T †TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOS Short-circuit output current VO = 0VID = 1 V
25°C–35 –35
mAIOS Short-circuit output current VO = 0VID = –1 V
25°C45 45
mA
operating characteristics at specified free-air temperature, V CC± = ±5 V
PARAMETER TEST CONDITIONS TA†TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 2 3 V
25°C 35 35
V/SR+ Positive slew rateVO(PP) = ±2.3 V,AVD = –1 RL = 2 kΩ
Fullrange
20 20V/µs
SR N i l
AVD = –1, RL = 2 kΩ,CL = 100 pF, See Figure 1 25°C 38 38
V/SR– Negative slew rateCL = 100 pF, See Figure 1
Fullrange
20 20V/µs
ts Settling time
AVD = –1,2-V step,
To 10 mV25°C
0.25 0.25µsts Settling time 2 V step,
RL = 1 kΩ,CL = 100 pF To 1 mV
25°C0.4 0.4
µs
VnEquivalent input noise
R 20 Ω
f = 10 Hz25°C
28 55 28 55nV/√HzVn
Equivalent input noisevoltage
R 20 Ω
f = 10 kHz25°C
11.6 17 11.6 17nV/√Hz
VP k t k
RS = 20 Ω, f = 10 Hz to
25°C6 6
VVN(PP)
Peak-to-peak equivalent input
S ,See Figure 3
f 10 Hz to10 kHz
25°C6 6
µVVN(PP) equivalent inputnoise voltage f = 0.1 Hz to
25°C0 6 0 6
µVnoise voltage f 0.1 Hz to
10 Hz0.6 0.6
InEquivalent input noisecurrent
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic
VO(PP) = 5 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 013% 0 013%THD + N
Total harmonic distortion plus noise f = 1 kHz, RL = 2 kΩ,
RS = 25 Ω25°C 0.013% 0.013%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 9 4 9 4 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 9.4 9.4 MHz
BOMMaximum output- VO(PP) = 4 V, AVD = –1,
25°C 2 8 2 8 MHzBOMMaximum outputswing bandwidth
VO(PP) 4 V, AVD 1,RL = 2 kΩ , CL = 25 pF
25°C 2.8 2.8 MHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 56° 56°φmg y
gainI , L ,
CL = 25 pF, See Figure 2 25°C 56° 56°
† Full range is 40°C to 85°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–12 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 1.1 6 0.7 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 9.1 6.4mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω,
Full range 2.4 25 2.4 25 µV/°C
IIO Input offset currentV 0 V 0
25°C 6 100 6 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 5 5 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 20 175 20 175 pA
IIB Input bias currentFull range 10 10 nA
VC d i
R 50 Ω
25°C15 15 15 15
VVC d i
R 50 Ω
25°C15to
15to
15to
15to
VVICRCommon-mode input
RS = 50 Ω–11 –11.9 –11 –11.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll15 15
Vg g
Full range15to
15tog
–10.8 –10.8
VM i i i k
IO = –200 µA25°C 13.8 14.1 13.8 14.1
VVM i i i k
IO = –200 µAFull range 13.7 13.7
VVOMMaximum positive peak
IO = –2 mA25°C 13.5 13.9 13.5 13.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 13.4 13.4
V
IO = –20 mA25°C 11.5 12.3 11.5 12.3
IO = –20 mAFull range 11.5 11.5
VM i i k
IO = 200 µA25°C –13.8 –14.2 –13.8 –14.2
VVM i i k
IO = 200 µAFull range –13.7 –13.7
VVOMMaximum negative peak
IO = 2 mA25°C –13.5 –14 –13.5 –14
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –13.4 –13.4
V
IO = 20 mA25°C –11.5 –12.4 –11.5 –12.4
IO = 20 mAFull range –11.5 –11.5
AL i l diff i l
V 10 V
RL = 600 Ω25°C 80 96 80 96
dBAL i l diff i l
V 10 V
RL = 600 ΩFull range 79 79
dBAVDLarge-signal differential
VO = ± 10 V RL = 2 kΩ25°C 90 109 90 109
dBAVDLarge signal differentialvoltage amplification
VO = ± 10 V RL = 2 kΩFull range 89 89
dB
RL = 10 kΩ25°C 95 118 95 118
RL = 10 kΩFull range 94 94
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 7.5 7.5pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop output impedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 80 98 80 98
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 79 79
dB
kSVRSupply-voltage rejection VCC± = ±5 V to ±15 V, 25°C 82 99 82 99
dBkSVRSupply voltage rejectionratio (∆VCC± /∆VIO)
VCC± ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 80 80
dB
ICCSupply current
VO = 0 No load25°C 2.7 3.1 3.6 2.7 3.1 3.6
mAICCpp y
(both channels) VO = 0, No loadFull range 3.6 3.6
mA
† Full range is –40°C to 85°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–13POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)(continued)
PARAMETER TEST CONDITIONS T †TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOS Short-circuit output current VO = 0VID = 1 V
25°C–30 –45 –30 –45
mAIOS Short-circuit output current VO = 0VID = –1 V
25°C30 48 30 48
mA
operating characteristics at specified free-air temperature, V CC± = ±15 V
PARAMETER TEST CONDITIONS TA†TLE2072I TLE2072AI
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 10 V
25°C 28 40 28 40
V/SR+ Positive slew rateVO(PP) = ±10 V,AVD = –1 RL = 2 kΩ
Fullrange
22 22V/µs
SR N i l
AVD = –1, RL = 2 kΩ,CL = 100 pF, See Figure 1 25°C 30 45 30 45
V/SR– Negative slew rateCL = 100 pF, See Figure 1
Fullrange
22 22V/µs
ts Settling time
AVD = –1,10-V step,
To 10 mV25°C
0.4 0.4µsts Settling time 10 V step,
RL = 1kΩ,CL = 100 pF To 1 mV
25°C1.5 1.5
µs
VnEquivalent input
R 20 Ω
f = 10 Hz25°C
28 55 28 55nV/√HzVn
Equivalent inputnoise voltage
R 20 Ω
f = 10 kHz25°C
11.6 17 11.6 17nV/√Hz
VP k t k
RS = 20 Ω, f = 0 Hz to
25°C6 6
VVN(PP)
Peak-to-peak equivalent input
S ,See Figure 3
f 0 Hz to10 kHz
25°C6 6
µVVN(PP) equivalent inputnoise voltage f = 0.1 Hz to
10 Hz
25°C0.6 0.6
µV
InEquivalent inputnoise current
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic
VO(PP) = 20 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 008% 0 008%THD + N
Total harmonicdistortion plus noise f = 1 kHz, RL = 2 kΩ,
RS = 25 Ω25°C 0.008% 0.008%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 8 10 8 10 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 8 10 8 10 MHz
BOMMaximum output- VO(PP) = 20 V, AVD = –1,
25°C 478 637 478 637 kHzBOMMaximum outputswing bandwidth
VO(PP) 20 V, AVD 1,RL = 2 kΩ, CL = 25 pF
25°C 478 637 478 637 kHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 57° 57°φmg y
gainI , L ,
CL = 25 pF, See Figure 2 25°C 57° 57°
† Full range is –40°C to 85°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–14 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 0.9 6 0.65 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 10.5 8mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω,
Full range 2.3 25∗ 2.3 25∗ µV/°C
IIO Input offset currentV 0 V 0
25°C 5 100 5 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 20 20 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 15 175 15 175 pA
IIB Input bias currentFull range 65 65 nA
VC d i
R 50 Ω
25°C5 5 5 5
VVC d i
R 50 Ω
25°C5to
5to
5to
5to
VVICRCommon-mode input
RS = 50 Ω–1 –1.9 –1 –1.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll5 5
Vg g
Full range5to
5tog
–0.8 –0.8
VM i i i k
IO = –200 µA25°C 3.8 4.1 3.8 4.1
VVM i i i k
IO = –200 µAFull range 3.6 3.6
VVOMMaximum positive peak
IO = –2 mA25°C 3.5 3.9 3.5 3.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 3.3 3.3
V
IO = –20 mA25°C 1.5 2.3 1.5 2.3
IO = –20 mAFull range 1.4 1.4
VM i i k
IO = 200 µA25°C –3.8 –4.2 –3.8 –4.2
VVM i i k
IO = 200 µAFull range –3.6 –3.6
VVOMMaximum negative peak
IO = 2 mA25°C –3.5 –4.1 –3.5 –4.1
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –3.3 –3.3
V
IO = 20 mA25°C –1.5 –2.4 –1.5 –2.4
IO = 20 mAFull range –1.4 –1.4
AL i l diff i l
V 2 3 V
RL = 600 Ω25°C 80 91 80 91
dBAL i l diff i l
V 2 3 V
RL = 600 ΩFull range 78 78
dBAVDLarge-signal differential
VO = ± 2 3 V RL = 2 kΩ25°C 90 100 90 100
dBAVDLarge signal differentialvoltage amplification
VO = ± 2.3 V RL = 2 kΩFull range 88 88
dB
RL = 10 kΩ25°C 95 106 95 106
RL = 10 kΩFull range 93 93
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 11 11pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop output impedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 70 89 70 89
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 68 68
dB
∗On products compliant to MIL-STD-883, Class B, this parameter is not production tested.† Full range is –55°C to 125°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–15POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±5 V (unless otherwise noted)(continued)
PARAMETER TEST CONDITIONS T †TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
kSVRSupply-voltage rejectionratio (∆VCC± /∆VIO)
VCC± = ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 80 80 dB
ICCSupply current
VO = 0 No load25°C 2.7 2.9 3.6 2.7 2.9 3.6
mAICCSupply current(both channels)
VO = 0, No loadFull range 3.6 3.6
mA
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOSShort-circuit output
VO = 0VID = 1 V
25°C–35 –35
mAIOSShort circuit output current VO = 0
VID = –1 V25°C
45 45mA
operating characteristics at specified free-air temperature, V CC± = ±5 V
PARAMETER TEST CONDITIONS TA†TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 2 3 V
25°C 35 35
V/SR+ Positive slew rateVO(PP) = ±2.3 V,AVD = –1 RL = 2 kΩ
Fullrange
18∗ 18∗ V/µs
SR N i l
AVD = –1, RL = 2 kΩ,CL = 100 pF, See Figure 1 25°C 38 38
V/SR– Negative slew rateCL = 100 pF, See Figure 1
Fullrange
18∗ 18∗ V/µs
ts Settling time
AVD = –1,2-V step,
To 10 mV25°C
0.25 0.25µsts Settling time 2 V step,
RL = 1 kΩ,CL = 100 pF To 1 mV
25°C0.4 0.4
µs
VnEquivalent input noise
R 20 Ω
f = 10 Hz25°C
28 55∗ 28 55∗nV/√HzVn
Equivalent input noisevoltage
R 20 Ω
f = 10 kHz25°C
11.6 17∗ 11.6 17∗ nV/√Hz
VP k t k
RS = 20 Ω, f = 10 Hz to
25°C6 6
VVN(PP)
Peak-to-peakequivalent input
S ,See Figure 3
f 10 Hz to10 kHz
25°C6 6
µVVN(PP) equivalent inputnoise voltage f = 0.1 Hz to
25°C0 6 0 6
µVnoise voltage f 0.1 Hz to
10 Hz0.6 0.6
InEquivalent input noisecurrent
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic
VO(PP) = 5 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 013% 0 013%THD + N
Total harmonicdistortion plus noise
f = 1 kHz, RL = 2 kΩ, RS = 25 Ω
25°C 0.013% 0.013%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 9 4 9 4 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 9.4 9.4 MHz
BOMMaximum output-swing VO(PP) = 4 V, AVD = –1,
25°C 2 8 2 8 MHzBOMMaximum output swingbandwidth
VO(PP) 4 V, AVD 1,RL = 2 kΩ , CL = 25 pF
25°C 2.8 2.8 MHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 56° 56°φmPhase margin at unitygain
VI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 56° 56°
∗On products compliant to MIL-STD-883, Class B, this parameter is not production tested.† Full range is –55°C to 125°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–16 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
VIO Input offset voltageV 0 V 0
25°C 1.1 6 0.7 3.5mVVIO Input offset voltage
VIC = 0, VO = 0,R 50 Ω
Full range 10.5 8mV
αVIOTemperature coefficientof input offset voltage
IC ORS = 50 Ω
Full range 2.4 25∗ 2.4 25∗ µV/°C
IIO Input offset currentV 0 V 0
25°C 6 100 6 100 pAIIO Input offset current
VIC = 0, VO = 0, Full range 20 20 nA
IIB Input bias current
VIC 0, VO 0,See Figure 4 25°C 20 175 20 175 pA
IIB Input bias currentFull range 65 65 nA
VC d i
R 50 Ω
25°C15 15 15 15
VVC d i
R 50 Ω
25°C15to
15to
15to
15to
VVICRCommon-mode input
RS = 50 Ω–11 –11.9 –11 –11.9
VVICRCommon mode inputvoltage range
RS = 50 Ω
F ll15 15
Vg g
Full range15to
15tog
–10.8 –10.8
VM i i i k
IO = –200 µA25°C 13.8 14.1 13.8 14.1
VVM i i i k
IO = –200 µAFull range 13.6 13.6
VVOMMaximum positive peak
IO = –2 mA25°C 13.5 13.9 13.5 13.9
VVOM+Maximum positive peakoutput voltage swing
IO = –2 mAFull range 13.3 13.3
V
IO = –20 mA25°C 11.5 12.3 11.5 12.3
IO = –20 mAFull range 11.4 11.4
VM i i k
IO = 200 µA25°C –13.8 –14.2 –13.8 –14.2
VVM i i k
IO = 200 µAFull range –13.6 –13.6
VVOMMaximum negative peak
IO = 2 mA25°C –13.5 –14 –13.5 –14
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mAFull range –13.3 –13.3
V
IO = 20 mA25°C –11.5 –12.4 –11.5 –12.4
IO = 20 mAFull range –11.4 –11.4
AL i l diff i l
V 10 V
RL = 600 Ω25°C 80 96 80 96
dBAL i l diff i l
V 10 V
RL = 600 ΩFull range 78 78
dBAVDLarge-signal differential
VO = ± 10 V RL = 2 kΩ25°C 90 109 90 109
dBAVDLarge signal differentialvoltage amplification
VO = ± 10 V RL = 2 kΩFull range 89 89
dB
RL = 10 kΩ25°C 95 118 95 118
RL = 10 kΩFull range 93 93
ri Input resistance VIC = 0 25°C 1012 1012 Ω
ci Input capacitanceVIC = 0,See Figure 5
Commonmode
25°C 7.5 7.5pFci Input capacitance See Figure 5
Differential 25°C 2.5 2.5
pF
zoOpen-loop outputimpedance
f = 1 MHz 25°C 80 80 Ω
CMRRCommon-mode VIC = VICRmin, 25°C 80 98 80 98
dBCMRRCommon moderejection ratio
VIC VICRmin,VO = 0, RS = 50 Ω Full range 78 78
dB
kSVRSupply-voltage rejection VCC± = ±5 V to ±15 V, 25°C 82 99 82 99
dBkSVRSupply voltage rejectionratio (∆VCC± /∆VIO)
VCC± ±5 V to ±15 V,VO = 0, RS = 50 Ω Full range 80 80
dB
∗On products compliant to MIL-STD-883, Class B, this parameter is not production tested.† Full range is –55°C to 125°C.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–17POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at specified free-air temperature, V CC± = ±15 V (unless otherwise noted)
PARAMETER TEST CONDITIONS T †TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
ICCSupply current
VO = 0 No load25°C 2.7 3.1 3.6 2.7 3.1 3.6
mAICCSupply current(both channels)
VO = 0, No loadFull range 3.6 3.6
mA
ax Crosstalk attenuation VIC = 0, RL = 2 kΩ 25°C 120 120 dB
IOSShort-circuit output
VO = 0VID = 1 V
25°C–30 –45 –30 –45
mAIOSShort circuit outputcurrent
VO = 0VID = –1 V
25°C30 48 30 48
mA
operating characteristics at specified free-air temperature, V CC± = ±15 V
PARAMETER TEST CONDITIONS TA†TLE2072M TLE2072AM
UNITPARAMETER TEST CONDITIONS TA†MIN TYP MAX MIN TYP MAX
UNIT
SR P i i lV 10 V A 1
25°C 28 40 28 40
V/SR+ Positive slew rateVO(PP) = 10 V, AVD = –1,RL = 2 kΩ CL = 100 pF
Fullrange
20 20V/µs
SR N i l
RL = 2 kΩ, CL = 100 pF,See Figure 1 25°C 30 45 30 45
V/SR– Negative slew rateSee Figure 1
Fullrange
20 20V/µs
ts Settling time
AVD = –1,10-V step,
To 10 mV25°C
0.4 0.4µsts Settling time 10 V step,
RL = 1kΩ,CL = 100 pF To 1 mV
25°C1.5 1.5
µs
VnEquivalent input noise
R 20 Ω
f = 10 Hz25°C
28 55∗ 28 55∗nV/√HzVn
Equivalent input noisevoltage
R 20 Ω
f = 10 kHz25°C
11.6 17∗ 11.6 17∗ nV/√Hz
VP k t k
RS = 20 Ω, f = 10 Hz to
25°C6 6
VVN(PP)
Peak-to-peakequivalent input
S ,See Figure 3
f 10 Hz to10 kHz
25°C6 6
µVVN(PP) equivalent input noise voltage f = 0.1 Hz to
25°C0 6 0 6
µVnoise voltage f 0.1 Hz to
10 Hz0.6 0.6
InEquivalent input noisecurrent
VIC = 0, f = 10 kHz 25°C 2.8 2.8 fA /√Hz
THD + NTotal harmonic
VO(PP) = 20 V, AVD = 10,f = 1 kHz RL = 2 kΩ 25°C 0 008% 0 008%THD + N
Total harmonicdistortion plus noise f = 1 kHz, RL = 2 kΩ,
RS = 25 Ω25°C 0.008% 0.008%
B1 Unity-gain bandwidthVI = 10 mV, RL = 2 kΩ,
25°C 8∗ 10 8∗ 10 MHzB1 Unity-gain bandwidthVI 10 mV, RL 2 kΩ,CL = 25 pF, See Figure 2
25°C 8∗ 10 8∗ 10 MHz
BOM
Maximumoutput-swing
VO(PP) = 20 V, AVD = –1,25°C 478∗ 637 478∗ 637 kHzBOM output-swing
bandwidth
VO(PP) 20 V, AVD 1,RL = 2 kΩ, CL = 25 pF
25°C 478∗ 637 478∗ 637 kHz
φmPhase margin at unity VI = 10 mV, RL = 2 kΩ,
25°C 57° 57°φmg y
gainI , L ,
CL = 25 pF, See Figure 2 25°C 57° 57°
∗On products compliant to MIL-STD-883, Class B, this parameter is not production tested.† Full range is –55°C to 125°C.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–18 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics at V CC± = ±15 V, TA = 25°C
PARAMETER TEST CONDITIONSTLE2072Y
UNITPARAMETER TEST CONDITIONSMIN TYP MAX
UNIT
VIO Input offset voltage VIC = 0, VO = 0, RS = 50 Ω 1.1 6 mV
IIO Input offset currentVIC = 0 VO = 0 See Figure 4
6 100 pA
IIB Input bias currentVIC = 0, VO = 0, See Figure 4
20 175 pA
V C d i l R 50 Ω15 15
VVICR Common-mode input voltage range RS = 50 Ω15to
15to VICR p g g S
–11 11.9
V M i i i k l i
IO = –200 µA 13.8 14.1
VVOM+ Maximum positive peak output voltage swing IO = –2 mA 13.5 13.9 VOM+ p p p g g
IO = –20 mA 11.5 12.3
VMaximum negative peak
IO = 200 µA –13.8 –14.2
VVOM–Maximum negative peakoutput voltage swing
IO = 2 mA –13.5 –14 VOM output voltage swingIO = 20 mA – 11.5 – 12 .4
A L i l diff i l l lifi i V 10 V
RL = 600 Ω 80 96
dBAVD Large-signal differential voltage amplification VO = ± 10 V RL = 2 kΩ 90 109 dBVD g g g p ORL = 10 kΩ 95 118
ri Input resistance VIC = 0 1012 Ω
ci Input capacitanceVIC = 0, Common mode 7.5
pFci Input capacitanceVIC 0,See Figure 5 Differential 2.5
pF
zo Open-loop output impedance f = 1 MHz 80 Ω
CMRR Common-mode rejection ratio VIC = VICRmin, VO = 0, RS = 50 Ω 80 98 dB
kSVR Supply-voltage rejection ratio (∆VCC± /∆VIO)VCC± = ±5 V to ±15 V, VO = 0,RS = 50 Ω 82 99 dB
ICC Supply current (both channels) VO = 0, No load 2.7 3.1 3.6 mA
IOS Short circuit output current VO = 0VID = 1 V –30 –45
mAIOS Short-circuit output current VO = 0VID = –1 V 30 48
mA
PARAMETER MEASUREMENT INFORMATION
–+
2 kΩ
2 kΩ
RL CL†
VO
VCC+
VCC–
VI–+
10 kΩ
VO
CL†
100 Ω
RL
VCC+
VCC–
VI
Figure 1. Slew-Rate Test Circuit Figure 2. Unity-Gain Bandwidth andPhase-Margin Test Circuit
† Includes fixture capacitance
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–19POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
PARAMETER MEASUREMENT INFORMATION
–+
–+
2 kΩ
VCC+ VCC+
VO VO
VCC–VCC–RS RS
Ground Shield
Picoammeters
Figure 3. Noise-Voltage Test Circuit Figure 4. Input-Bias and Offset-Current Test Circuit
–
+
VCC+
VO
VCC–
IN–
IN+Cic Cic
Cid
Figure 5. Internal Input Capacitance
typical values
Typical values presented in this data sheet represent the median (50% point) of device parametric performance.
input bias and offset current
At the picoampere bias-current level typical of the TLE2072 and TLE2072A, accurate measurement of the biasbecomes difficult. Not only does this measurement require a picoammeter, but test socket leakages can easilyexceed the actual device bias currents. To accurately measure these small currents, Texas Instruments usesa two-step process. The socket leakage is measured using picoammeters with bias voltages applied but withno device in the socket. The device is then inserted in the socket and a second test is performed that measuresboth the socket leakage and the device input bias current. The two measurements are then subtractedalgebraically to determine the bias current of the device.
TYPICAL CHARACTERISTICS
Table of Graphs
FIGURE
VIO Input offset voltage Distribution 6
αVIO Temperature coefficient Distribution 7
IIO Input offset current vs Free-air temperature 8, 9
IIB Input bias currentvs Free-air temperature 8, 9
IIB Input bias currentp
vs Supply voltage,
10
VICR Common-mode input voltage range vs Free-air temperature 11
VID Differential input voltage vs Output voltage 12, 13
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–20 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS
Table of Graphs (Continued)
FIGURE
V M i i i k lvs Output current 14
VOM+ Maximum positive peak output voltagevs Output currentvs Free-air temperature
S l l
1416, 17OM+ p p p g p
vs Supply voltage 18
V M i i k lvs Output current 15
VOM– Maximum negative peak output voltagevs Output currentvs Free-air temperature
S l l
1516, 17OM g p p g p
vs Supply voltage 18
VO(PP) Maximum peak-to-peak output voltage vs Frequency 19
VO Output voltage vs Settling time 20
A Diff i l l lifi ivs Load resistance 21
AVD Differential voltage amplificationvs Load resistancevs Free-air temperature
F
2122, 23VD g p p
vs Frequency 24, 25
CMRR Common-mode rejection ratiovs Frequency 26
CMRR Common-mode rejection ratioq y
vs Free-air temperature 27
kSVR Supply-voltage rejection ratiovs Frequency 28
kSVR Supply-voltage rejection ratioq y
vs Free-air temperature 29
I S lvs Supply voltage 30
ICC Supply currentvs Supply voltagevs Free-air temperature
Diff i l i l
3031CC pp y p
vs Differential input voltage 32, 33
I Sh i ivs Supply voltage 34
IOS Short-circuit output currentvs Supply voltagevs Elapsed time
F i
3435OS p p
vs Free-air temperature 36
SR Slvs Free-air temperature 37, 38
SR Slew ratevs Free air temperaturevs Load resistance
Diff i l i l
37, 3839
vs Differential input voltage 40
Vn Equivalent input noise voltage vs Frequency 41
Vn Input-referred noise voltagevs Noise bandwidth 42
Vn Input-referred noise voltage Over a 10-second time interval 43
Third-octave spectral noise density vs Frequency bands 44
THD +N Total harmonic distortion plus noise vs Frequency 45, 46
B1 Unity-gain bandwidth vs Load capacitance 47
Gain-bandwidth productvs Free-air temperature 48
Gain-bandwidth productp
vs Supply voltage 49
Gain margin vs Load capacitance 50
Ph ivs Free-air temperature 51
φm Phase marginvs Free air temperaturevs Supply voltage
L d i
5152φm g pp y g
vs Load capacitance 53
Phase shift vs Frequency 24, 25
Large-signal pulse response, noninverting vs Time 54
Small-signal pulse response vs Time 55
zo Closed-loop output impedance vs Frequency 56
ax Crosstalk attenuation vs Frequency 57
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–21POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
VIO – Input Offset Voltage – mV
15
12
6
3
0
27
9
– 30 – 24 –18 –12 – 6 0 6P
erce
ntag
e of
Am
plifi
ers
– %
21
18
24
DISTRIBUTION OF TLE2072 INPUT OFFSETVOLTAGE TEMPERATURE COEFFICIENT
30
12 18 24 30
10
8
4
2
0
18
6
– 4 – 2.4 – 0.8 0.8
Per
cent
age
of U
nits
– % 14
12
16
DISTRIBUTION OF TLE2072INPUT OFFSET VOLTAGE
20
2.4 4
VIO
600 Units Tested From One Wafer Lot 310 AmplifiersVCC = ±15 VTA = – 55°C to 125°C
VCC = ±15 V
αVIO – Temperature Coefficient – µV/°C
P PackageTA = 25°CP Package
Figure 6 Figure 7
0.01
25 45
INPUT BIAS CURRENT ANDINPUT OFFSET CURRENT
vsFREE-AIR TEMPERATURE
100
65 85 105 125
0.1
1
10
INPUT BIAS CURRENT ANDINPUT OFFSET CURRENT
vsFREE-AIR TEMPERATURE
25 45 65 85 105 125
0.01
100
0.1
1
10
VCC± = ±5 VVIC = 0VO = 0
VCC± = ±15 VVIC = 0VO = 0
IIB
IIO
IIO
IIB
–75 –55 –35 –15 –5 –75 –55 –35 –15 5
TA – Free-Air Temperature – °C TA – Free-Air Temperature – °C
IIB a
nd II
O –
Inpu
t Bia
s an
d In
put O
ffset
Cur
rent
s –
nAIBI
I IO
0.001
IIB a
nd II
O –
Inpu
t Bia
s an
d In
put O
ffset
Cur
rent
s –
nAIBI
I IO
0.001
Figure 8 Figure 9
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–22 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
104
103
102
100
101
106
VIC
– C
omm
on-M
ode
Inpu
t Vol
tage
Ran
ge –
VV I
C
IIB –
Inpu
t Bia
s C
urre
nt –
pA
5 25 45
COMMON-MODE INPUT VOLTAGE RANGEvs
FREE-AIR TEMPERATURE
65 85 105 125
INPUT BIAS CURRENTvs
SUPPLY VOLTAGE
0 5 10 15 20 25 30 35 40 45
I IB TA = 25°C
TA = –55°C
RS = 50 Ω
105 VICminTA = 125°C
VICmax = VCC+
VCC+ +0.5
VCC+ –0.5
VCC– +3.5
VCC+
VCC– +3
VCC– +2.5
VCC– +2
VICmin
VICmax
– 75 –55 –35 –15
VCC – Total Supply Voltage (Referred to V CC–) – V TA – Free-Air Temperature – °C
Figure 10 Figure 11
VID
– D
iffer
entia
l Inp
ut V
olta
ge –
uV
IDV
– 100
– 200
– 300
– 400– 15 – 10 – 5 50
100
200
400
10 15– 5 – 4 – 3 – 2 – 10 0 1
DIFFERENTIAL INPUT VOLTAGEvs
OUTPUT VOLTAGE
2 5
RL = 2 kΩRL = 2 kΩ
VCC± = ±15 V
RL = 10 kΩ
RL = 10 kΩ
RL = 2 kΩRL = 2 kΩ
RL = 10 kΩ
RL = 10 kΩ
VCC± = ±5 VVIC = 0RS = 50 ΩTA = 25°C
RL = 600 Ω RL = 600 Ω
RL = 600 ΩRL = 600 Ω
DIFFERENTIAL INPUT VOLTAGEvs
OUTPUT VOLTAGE
300
0
– 100
– 200
– 300
– 400
100
200
400
300
0
3 4
VO – Output Voltage – V V O – Output Voltage – V
Vµ
VID
– D
iffer
entia
l Inp
ut V
olta
ge –
uV
IDV
Vµ
VIC = 0RS = 50 ΩTA = 25°C
Figure 12 Figure 13
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–23POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
– M
axim
um N
egat
ive
Pea
k O
utpu
t Vol
tage
– V
VO
M –
Max
imum
Pos
itive
Pea
k O
utpu
t Vol
tage
– V
–7.5
– 6
– 3
–1.5
0
–13.5
– 4.5
0 5 10 15 20 25 30
–10.5
– 9
–12
–15
35 40 45 50
7.5
6
3
1.5
0
13.5
4.5
0 – 5 –10 –15 – 20 – 25 – 30
10.5
9
12
MAXIMUM POSITIVE PEAK OUTPUT VOLTAGEvs
OUTPUT CURRENT15
– 35 – 40 – 45 – 50
VO
M+
VO
M –
MAXIMUM NEGATIVE PEAK OUTPUT VOLTAGEvs
OUTPUT CURRENT
TA = 25°C
TA = 125°C
TA = –55°C
VCC± = ±15 V
TA = –55°C
TA = 25°C
TA = 125°C TA = 85°C TA = 85°C
IO – Output Current – mA I O – Output Current – mA
VCC± = ±15 V
Figure 14 Figure 15
VO
M –
Max
imum
Pea
k O
utpu
t Vol
tage
– V
12.5
12
11
10.5
10
14.5
11.5
5 25 45
|
|
– M
axim
um P
eak
Out
put V
olta
ge –
V
13.5
13
14
15
65 85 105 125
0
– 1
– 3
– 4
– 5
4
– 2
5 25 45
2
1
3
MAXIMUM PEAK OUTPUT VOLTAGEvs
FREE-AIR TEMPERATURE
5
65 85 105 125
VO
M
VO
M
MAXIMUM PEAK OUTPUT VOLTAGEvs
FREE-AIR TEMPERATURE
IO = –20 mA
IO = 20 mA
IO = 2 mA
IO = –200 µA IO = 200 µA
VCC± = ±15 V
IO = –200 µA
IO = –2 mA
IO = –20 mA
VCC± = ±5 V
IO = 20 mA
IO = 2 mA
IO = 200 µA
–75 –55 –35 –15–75 –55 –35 –15
TA – Free-Air Temperature – °C TA – Free-Air Temperature – °C
IO = –2 mA
Figure 16 Figure 17
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–24 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
VO
(PP
) –
Max
imum
Pea
k-to
-Pea
k O
utpu
t Vol
tage
– V
20
5
0
30
10
25
100 k 1 M 10 Mf – Frequency – Hz
VO
(PP
)
15
MAXIMUM PEAK-TO-PEAK OUTPUT VOLTAGEvs
FREQUENCY
TA = –55°C
TA = 25°C, 125°C
TA = 25°C, 125°C
RL = 2 kΩ
VCC± = ±5 V
VO
M –
Max
imum
Pea
k O
utpu
t Vol
tage
– V
0
– 5
–15
– 20
– 25
20
–10
0 2.5 5 7.5 10 12.5 15
10
5
15
MAXIMUM PEAK OUTPUT VOLTAGEvs
SUPPLY VOLTAGE
25
17.5 20 22.5 25
V OM
IO = –2 mA
IO = –20 mA
IO = 20 mA
IO = 200 µA
IO = 2 mA
|VCC± | – Supply Voltage – V
VCC± = ±15 V
TA = –55°C
TA = 25°C
IO = –200 µA
Figure 18 Figure 19
0 0.5 1 1.5 2
LARGE-SIGNAL DIFFERENTIALVOLTAGE AMPLIFICATION
vsLOAD RESISTANCE
VO
– O
utpu
t Vol
tage
– V
OUTPUT VOLTAGEvs
SETTLING TIME
V O
115
110
100
95
90
125
105
0.1 1 10 100
120
VCC± = ±15 VRL = 1 kΩCL = 100 pFAV = –1TA = 25°C
1 mV
1 mV
Rising
Falling
10 mV
10 mV
– 2.5
– 10
– 12.5
10
12.5
– 5
7.5
2.5
– 7.5
5
0
VCC± = ±15 V
VCC± = ±5 V
VIC = 0RS = 50 ΩTA = 25°C
ts – Settling Time – µs RL – Load Resistance – k Ω
AV
D –
Lar
ge-S
igna
l Diff
eren
tial
ÁÁÁÁ
AV
D Volta
ge A
mpl
ifica
tion
– dB
Figure 20 Figure 21
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–25POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
TA – Free-Air Temperature – °C125105–15– 35– 55
105
101
93
89
85
121
97
113
109
117
125
95
92
86
83
80
107
89
–75 – 55 – 35 –15 5 25 45
101
98
104
LARGE-SIGNAL DIFFERENTIALVOLTAGE AMPLIFICATION
vsFREE-AIR TEMPERATURE
110
65 85 105 125
LARGE-SIGNAL DIFFERENTIALVOLTAGE AMPLIFICATION
vsFREE-AIR TEMPERATURE
RL = 10 kΩ
RL = 2 kΩ
VCC± = ±5 VVO = ±2.3 V
RL = 600 Ω
RL = 10 kΩ
–75 5 25 45 65 85
TA – Free-Air Temperature – °C
RL = 600 Ω
RL = 2 kΩ
VCC± = ±15 VVO = ±10 V
AV
D –
Lar
ge-S
igna
l Diff
eren
tial
ÁÁÁÁÁÁ
AV
D Volta
ge A
mpl
ifica
tion
– dB
AV
D –
Lar
ge-S
igna
l Diff
eren
tial
ÁÁÁ
AV
D Volta
ge A
mpl
ifica
tion
– dB
Figure 22 Figure 23
60
20
0
– 40
1 10 100 1 k 10 k 100 k
100
120
f – Frequency – Hz
SMALL-SIGNAL DIFFERENTIAL VOLTAGEAMPLIFICATION AND PHASE SHIFT
vsFREQUENCY
140
1 M 10 M 100 M
80
40
Gain
Phase Shift
– 20
140°
120°
100°
80°
60°
40°
20°
0°P
hase
Shi
ft
180°
160°
VCC± = ±15 VRL = 2 kΩCL = 100 pFTA = 25°C
AV
D –
Sm
all-S
igna
l Diff
eren
tial
ÁÁÁÁÁÁ
Avd Vo
ltage
Am
plifi
catio
n –
dB
Figure 24
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–26 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
– 10
– 20
30
1 4 10 40 100
f – Frequency – MHz
20
10
0
CL = 100 pF
CL = 25 pF
VCC± = ± 15 V
Phase Shift
Gain
80°
120°
100°
140°
160°
180°
Pha
se S
hift
CL = 100 pF
CL = 25 pF
SMALL-SIGNAL DIFFERENTIAL VOLTAGEAMPLIFICATION AND PHASE SHIFT
vsFREQUENCY
VIC = 0RC = 2 kΩTA = 25°C
AV
D –
Sm
all-S
igna
l Diff
eren
tial
ÁÁÁÁ
Avd Vo
ltage
Am
plifi
catio
n –
dB
Figure 25
TA – Free-Air Temperature – °C
85
82
76
73
70
97
79
–75 – 55 – 35 –15 5 25 45
CM
RR
– C
omm
on-M
ode
Rej
ectio
n R
atio
– d
B
91
88
94
100
65 85 105 12510 100 1 k 10 k
CM
RR
– C
omm
on-M
ode
Rej
ectio
n R
atio
– d
B
f – Frequency – Hz
COMMON-MODE REJECTION RATIOvs
FREQUENCY
100 k 1 M 10 M
VCC± = ±15 V
VCC± = ±5 V
VIC = 0VO = 0RS = 50 ΩTA = 25°C
VIC = VICRmin
VCC± = ±5 V
VCC± = ±15 V
COMMON-MODE REJECTION RATIOvs
FREE-AIR TEMPERATURE
50
40
20
10
0
90
30
70
60
80
100
VO = 0RS = 50 Ω
Figure 26 Figure 27
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–27POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
TA – Free-Air Temperature – °C
XX
XX
– S
uppl
y-V
olta
ge R
ejec
tion
Rat
io –
dB
k S
VR
90
84
72
66
60
114
78
–75 – 55 – 35 –15 5 25 45
102
96
108
120
65 85 105 125
SUPPLY-VOLTAGE REJECTION RATIOvs
FREQUENCY
40
20
0
– 2010 100 1 k 10 k 100 k
60
80
f – Frequency – Hz
100
1 M 10 M
120
SUPPLY-VOLTAGE REJECTION RATIOvs
FREE-AIR TEMPERATURE
kSVR+
kSVR–
kSVR+
kSVR–
∆VCC± = ±5 V to ±15 VVIC = 0VO = 0RS = 50 ΩTA = 25°C X
XX
X –
Sup
ply-
Vol
tage
Rej
ectio
n R
atio
– d
Bk
SV
R
∆VCC± = ±5 V to ±15 VVIC = 0VO = 0RS = 50 Ω
Figure 28 Figure 29
TA – Free-Air Temperature – °C|VCC±| – Supply Voltage – V
ICC
– S
uppl
y C
urre
nt –
mA
3
2.9
2.7
2.6
2.5
3.4
2.8
–75 –55 –35 –15 5 25 45
ICC
– S
uppl
y C
urre
nt –
mA
3.2
3.1
3.3
3.5
65 85 105 125
3
2.8
2.4
2.2
2
3.8
2.6
0 2.5 5 7.5 10 12.5 15
3.4
3.2
3.6
SUPPLY CURRENTvs
SUPPLY VOLTAGE4
17.5 20 22.5 25
CC
I CC
I
TA = –55°C
VIC = 0VO = 0No Load
VCC± = ±15 V
VCC± = ±5 V
SUPPLY CURRENTvs
FREE-AIR TEMPERATURE
TA = 25°C
TA = 125°C
VIC = 0VO = 0No Load
Figure 30 Figure 31
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–28 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
VID – Differential Input Voltage – VVID – Differential Input Voltage – V
ICC
– S
uppl
y C
urre
nt –
mA
SUPPLY CURRENTvs
DIFFERENTIAL INPUT VOLTAGE
– 0.5 – 0.25 0 0.25 0.50
6
8
10
12
14
10
5
0–1.5 –1 – 0.5 0 0.5 1 1.5
ICC
– S
uppl
y C
urre
nt –
mA
15
20
25
I CC
I CC
VCC+ = 5 VVCC– = 0VIC = 4.5 VTA = 25°COpen LoopNo Load
SUPPLY CURRENTvs
DIFFERENTIAL INPUT VOLTAGE
4
2
VCC± = ±15 VVIC = 0TA = 25°COpen LoopNo Load
Figure 32 Figure 33
IOS
– S
hort
-Circ
uit O
utpu
t Cur
rent
– m
A
IOS
– S
hort
-Circ
uit O
utpu
t Cur
rent
– m
A
0 2.5 5 7.5 10 12.5 15 17.5 20 22.5 25
0
–12
– 36
– 48
– 60
48
– 24
24
12
36
SHORT-CIRCUIT OUTPUT CURRENTvs
SUPPLY VOLTAGE60
10
–10
– 20
– 500 60 120
30
40
t – Elapsed Time – s
50
180
20
0
I OS
I OS
SHORT-CIRCUIT OUTPUT CURRENTvs
ELAPSED TIME
VCC± = ±15 VVO = 0TA = 25°C
VID = –1 V
VID = –1 V
VID = 1 VVID = 1 V – 30
– 40
|VCC± | – Supply Voltage – V
VO = 0TA = 25°C
Figure 34 Figure 35
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–29POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
TA – Free-Air Temperature – °CTA – Free-Air Temperature – °C
SR
– S
lew
Rat
e –
V/x
s
IOS
– S
hort
-Circ
uit O
utpu
t Cur
rent
– m
A
35
33
29
27
25
43
31
–75 – 55 – 35 –15 5 25 45
39
37
41
SLEW RATEvs
FREE-AIR TEMPERATURE45
65 85 105 125
0
– 16
– 48
– 64
– 80
64
– 32
–75 – 55 – 35 –15 5 25 45
32
16
48
SHORT-CIRCUIT OUTPUT CURRENTvs
FREE-AIR TEMPERATURE
80
65 85 105 125
OS
I
sµ
V/
VCC± = ±15 V
VCC± = ±15 V
VCC± = ±5 V
VCC± = ±5 V
VID = –1 V
VID = 1 V
VO = 0
VCC± = ± 5 VRL = 2 kΩCL = 100 pF
SR–
SR+
Figure 36 Figure 37
RL – Load Resistance – ΩTA – Free-Air Temperature – °C
10
–10
0
– 20
– 50
50
– 30
100 1 k 10 k 100 k
30
20
40
50
46
38
34
30
66
42
–75 – 55 – 35 –15 5 25 45
SR
– S
lew
Rat
e –
58
54
62
SLEW RATEvs
FREE-AIR TEMPERATURE70
65 85 105 125
sµ
V/
SLEW RATEvs
LOAD RESISTANCE
VCC± = ±15 VRL = 2 kΩCL = 100 pF
SR–
SR+
VCC± = ±15 VVO± = ±10 V
VCC± = ±5 VVO± = ±2.5 V
AV = –1CL = 100 pFTA = 25°C
Rising Edge
Falling Edge
– 40
SR
– S
lew
Rat
e –
sµ
V/
Figure 38 Figure 39
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–30 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
VID – Differential Input Voltage – V
Vn
– E
quiv
alen
t Inp
ut N
oise
Vol
tage
–
50
0.1 0.4 1 4 10
SLEW RATEvs
DIFFERENTIAL INPUT VOLTAGE
40
5
25
15
0
50
30
10 100 1 k 10 k
45
10
20
f – Frequency – Hz
INPUT-REFERRED NOISE VOLTAGESPECTRAL DENSITY
vsFREQUENCY
35
nV
nV/
Hz
VCC± = ±15 VVIC = 0RS = 20 ΩTA = 25°C
VCC± = ±15 VVO± = ±10 V (10% – 90%)CL = 100 pFTA = 25°C
Rising Edge
Falling Edge
AV = –1
AV = –1
AV = 1
AV = 1
40
30
20
10
0
–10
– 20
– 30
– 40
– 50
SR
– S
lew
Rat
e –
sµ
V/
Figure 40 Figure 41
0.3
0
– 0.3
– 0.60 1 2 3 4 5 6
Vn
– In
put-
Ref
erre
d N
oise
Vol
tage
–
0.6
0.9
t – Time – s
INPUT-REFERRED NOISE VOLTAGEOVER A 10-SECOND TIME INTERVAL
1.2
7 8 9 100.01
1 10 100 1 k 10 k 100 k
Noise Bandwidth – Hz
1
0.1
10
100
INPUT-REFERRED NOISE VOLTAGEvs
NOISE BANDWIDTH
Vn
µV
VCC± = ±15 VVIC = 0RS = 20 ΩTA = 25°C
VCC± = ±15 Vf = 0.1 to 10 HzTA = 25°C
Peak-to-Peak
RMS
Vn
– In
put-
Ref
erre
d N
oise
Vol
tage
–V
nµ
V
Figure 42 Figure 43
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–31POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS
– 90
– 95
–100
–11510 15 20 25 30 35
Thi
rd-O
ctav
e S
pect
ral N
oise
Den
sity
– d
B
– 85
– 80
Frequency Bands
THIRD-OCTAVE SPECTRAL NOISE DENSITYvs
FREQUENCY BANDS– 75
40 450.001
10 100 1 k 10 k 100 kT
HD
+ N
– T
otal
Har
mon
ic D
isto
rtio
n +
Noi
se –
%
0.01
f – Frequency – Hz
TOTAL HARMONIC DISTORTION PLUS NOISEvs
FREQUENCY
0.1
1
VCC± = ±15 V
Start Frequency: 12.5 HzStop Frequency: 20 kHz
VCC± = ±5 VVO(PP) = 5 VTA = 25°CFilter: 10-Hz to 500-kHz Band Pass
AV = 100, RL = 600 Ω
AV = 100, RL = 2 kΩ
AV = 10, RL = 2 kΩ
AV = 10, RL = 600 Ω
–105
–110
VIC = 0TA = 25°C
Figure 44 Figure 45
10 100 1 k 10 k 100 k
f – Frequency – Hz
B1
– U
nity
-Gai
n B
andw
idth
– M
Hz
B1
0.001TH
D +
N –
Tot
al H
arm
onic
Dis
tort
ion
+ N
oise
– %
TOTAL HARMONIC DISTORTION PLUS NOISEvs
FREQUENCY
0.01
0.1
1
10
9
8
70 20 40 60
11
12
UNITY-GAIN BANDWIDTHvs
LOAD CAPACITANCE13
80 100
Filter: 10-Hz to 500-kHz Band Pass
AV = 10, RL = 2 kΩ
AV = 10, RL = 600 Ω
AV = 100, RL = 2 kΩ
AV = 100, RL = 600 Ω
VCC± = ±15 VVIC = 0VO = 0RL = 2 kΩTA = 25°C
VCC± = ±15 VVO(PP) = 20 VTA = 25°C
CL – Load Capacitance – pF
Figure 46 Figure 47
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–32 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
TA – Free-Air Temperature – °C |VCC + | – Supply Voltage – V
10
9
8
7–75 – 55 – 35 –15 5 25 45
Gai
n-B
andw
idth
Pro
duct
– M
Hz
11
12
GAIN-BANDWIDTH PRODUCTvs
FREE-AIR TEMPERATURE
13
65 85 105 125
10
9
8
70 5 10 15
Gai
n-B
andw
idth
Pro
duct
– M
Hz
11
12
13
20 25
CC ±V
f = 100 kHzVIC = 0VO = 0RL = 2 kΩCL = 100 pFTA = 25°C
f = 100 kHzVIC = 0VO = 0RL = 2 kΩCL = 100 pF
VCC± = ±15 V
VCC± = ±5 V
GAIN-BANDWIDTH PRODUCTvs
SUPPLY VOLTAGE
Figure 48 Figure 49
30°
20°
10°
0°
40°
50°
60°
70°
80°
90°
Gai
n M
argi
n –
dB
xm –
Pha
se M
argi
n
–75 – 55 – 35 –15 5 25 45
PHASE MARGINvs
FREE-AIR TEMPERATURE
65 85 105
6
4
2
00 20 40 60
8
GAIN MARGINvs
LOAD CAPACITANCE10
80 100
mφ
VCC± = ±15 VVIC = 0VO = 0RL = 2 kΩTA = 25°C VCC± = ±15 V
VCC± = ±15 V
VCC± = ±5 V
VCC± = ±5 V
125
VIC = 0VO = 0
CL = 25 pF
CL = 100 pF
CL – Load Capacitance – pF TA – Free-Air Temperature – °C
RL = 2 kΩ
Figure 50 Figure 51
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–33POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
0°
10°
90°
80°
PHASE MARGINvs
SUPPLY VOLTAGE
0 4 8 12 16 20
VIC = 0VO = 0RL = 2 kΩTA = 25°C
VCC± = ±15 V
VIC = 0VO = 0RL = 2 kΩTA = 25°C
VCC± = ±5 V
PHASE MARGINvs
LOAD CAPACITANCE
30°
20°
40°
50°
60°
70°
0°
10°
90°
80°
30°
20°
40°
50°
60°
70°
0 20 40 60 80 100
CL = 25 pF
CL = 100 pF
CL – Load Capacitance – pF|VCC±| – Supply Voltage – V
xm –
Pha
se M
argi
nm
φxm –
Pha
se M
argi
nm
φ
Figure 52 Figure 53
VO
– O
utpu
t Vol
tage
– V
0
– 5
– 10
– 150 1
5
10
NONINVERTING LARGE-SIGNALPULSE RESPONSE
15
2 4 5
0
– 50
–1000 0.4 0.8
VO
– O
utpu
t Vol
tage
– m
V
50
SMALL-SIGNAL PULSE RESPONSE100
1.2 1.6
VO
V OVCC± = ±15 VAV = 1RL = 2 kΩCL = 100 pF
TA = 25°C, 125°C
TA = 25°C, 125°C
TA = –55°C
VCC± = ±15 V
3
TA = –55°C
t – Time – µs t – Time – µs
AV = –1RL = 2 kΩCL = 100 pFTA = 25°C
Figure 54 Figure 55
† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–34 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
TYPICAL CHARACTERISTICS †
100
60
40
20
140
80
10 100 1 k 10 k 100 kax
– C
ross
talk
Atte
nuat
ion
– dB
120
f – Frequency – Hz
CROSSTALK ATTENUATIONvs
FREQUENCY
ax VCC± = ±15 V
VIC = 0RL = 2 kΩTA = 25°C
CLOSED-LOOP OUTPUT IMPEDANCEvs
FREQUENCY
0.00110 100 1 k 10 k 100 k 1 M 10 M
f – Frequency – Hz
1
0.1
10
100
AV = 100
AV = 10
AV = 1
VCC± = ±15 VTA = 25°C
0.01
zo –
Clo
sed-
Loop
Out
put I
mpe
danc
e –
Xz o
Ω
Figure 56 Figure 57† Data at high and low temperatures are applicable only within the rated operating free-air temperature ranges of the various devices.
TLE2072, TLE2072A, TLE2072Y EXCALIBUR LOW-NOISE HIGH-SPEED
JFET-INPUT DUAL OPERATIONAL AMPLIFIERS SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–35POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
APPLICATION INFORMATION
macromodel information
Macromodel information provided was derived using PSpice Parts model generation software. The Boylemacromodel (see Note 4) and subcircuit in Figure 58 were generated using the TLE2072 typical electrical andoperating characteristics at TA = 25°C. Using this information, output simulations of the following key parameterscan be generated to a tolerance of 20% (in most cases):
• Unity-gain frequency
• Common-mode rejection ratio
• Phase margin
• DC output resistance
• AC output resistance
• Short-circuit output current limit
• Maximum positive output voltage swing
• Maximum negative output voltage swing
• Slew rate
• Quiescent power dissipation
• Input bias current
• Open-loop voltage amplificationNOTE 4: G.R. Boyle, B.M. Cohn, D. O. Pederson, and J. E. Solomon, “Macromodeling of Integrated Circuit Operational Amplifiers”, IEEE Journal
of Solid-State Circuits, SC-9, 353 (1974).
OUT
+
–
+
–
+
–
+
–+
–
+
– +
–
+–
.SUBCKT TLE2072 1 2 3 4 5C1 11 12 2.2E–12C2 6 7 10.00E–12DC 5 53 DXDE 54 5 DXDLP 90 91 DXDLN 92 90 DXDP 4 3 DXEGND 99 0 POLY (2) (3,0) (4,0) 0 .5 .5FB 7 99 POLY (5) VB VC VE VLP
+ VLN 0 5.607E6 –6E6 6E6 6E6 –6E6GA 6 0 11 12 333.0E–6GCM 0 6 10 99 7.43E–9ISS 3 10 DC 400.0E–6HLIM 90 0 VLIM 1KJ1 11 2 10 JXJ2 12 1 10 JX
RD1 4 11 3.003E3RD2 4 12 3.003E3R01 8 5 80R02 7 99 80RP 3 4 27.30E3RSS 10 99 500.0E3VB 9 0 DC 0VC 3 53 DC 2.20VE 54 4 DC 2.20VLIM 7 8 DC 0VLP 91 0 DC 45VLN 0 92 DC 45
.MODEL DX D (IS=800.0E–18)
.MODEL JX PJF (IS=15.00E–12 BETA=554.5E–6+ VTO=–.6).ENDS
VCC+
RP
IN–2
IN+1
VCC–
RD1
11
J1 J2
10
RSS ISS
3
12
RD2
VE
54DE
DP
VC
DC
C1
53
R2
6
9
EGND
VB
FB
C2
GCM GA VLIM
8
5
RO1
RO2
HLIM
90
DIP
91
DIN
92
VINVIP
99
7
4
R2 6 9 100.0E3
Figure 58. Boyle Macromodel and Subcircuit
PSpice and Parts are trademarks of MicroSim Corporation.
TLE2072, TLE2072A, TLE2072YEXCALIBUR LOW-NOISE HIGH-SPEEDJFET-INPUT DUAL OPERATIONAL AMPLIFIERS
SLOS124A – JUNE 1993 – REVISED AUGUST 1994
5–36 POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
IMPORTANT NOTICE
Texas Instruments (TI) reserves the right to make changes to its products or to discontinue any semiconductorproduct or service without notice, and advises its customers to obtain the latest version of relevant informationto verify, before placing orders, that the information being relied on is current.
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Copyright 1996, Texas Instruments Incorporated