TS274I ,HIGH SPEED CMOS QUAD OPERATIONAL AMPLIFIERSBLOCK DIAGRAMVCCCurrentxIOutputInputsource Secondstagedifferential OutputstageVCCE EMAXIMUM RATINGS ..
TS274ID ,HIGH SPEED QUAD CMOS OP-AMPSABSOLUTE MAXIMUM RATINGS Symbol Parameter TS274C/AC/BC TS274I/AI/BI TS274M/AM/BM Unit+ 1)V 18 ..
TS274IDT ,HIGH PERFORMANCE CMOS QUAD OP-AMPSapplications.Three power consumptions are available allowingto have always the best consumption-spe ..
TS274IN ,HIGH SPEED QUAD CMOS OP-AMPSTS274C,I,MHIGH PERFORMANCECMOS QUAD OPERATIONAL AMPLIFIERS ■ OUTPUT VOLTAGE CAN SWING TO GROUN ..
TS27L2 ,PRECISION VERY LOW POWER CMOS DUAL OPERATIONAL AMPLIFIERSBLOCK DIAGRAM VCCCurrentx IOutputInputsource Secondstagedifferential OutputstageVCCE E
TS27L2ACD ,PRECISION VERY LOW POWER CMOS DUAL OPERATIONAL AMPLIFIERSapplications.PThree power consumptions are available allowingTSSOP8to have always the best consumpt ..
U62256ADC07LLG1 , STANDARD 32K X 8 SRAM
U62256AS2C07LLG1 , STANDARD 32K X 8 SRAM
U62256AS2K07LLG1 , STANDARD 32K X 8 SRAM
U6264ADC-07LL , STANDARD 8K X 8 SRAM
U6264ADK07LL , STANDARD 8K X 8 SRAM
U6264ADK-07LL , STANDARD 8K X 8 SRAM
TS274C-TS274I
HIGH SPEED CMOS QUAD OPERATIONAL AMPLIFIERS
TS274C,I,MHIGH SPEED CMOS
QUAD OPERA TIONAL AMPLIFIERS
October 1997 OUTPUT VOLTAGE CAN SWING TO
GROUND. EXCELLENT PHASE MARGINON
CAPACITIVE LOADS. GAIN BANDWIDTH PRODUCT: 3.5MHz. STABLE AND LOW OFFSET VOLTAGE. THREE INPUT OFFSET VOLTAGE
SELECTIONS
InvertingInput2
Non-invertingInput2
Non-invertingInput1V -CCV
Output3
Output4
Non-inverting Input4
Inverting Input4
Non-inverting Input3
Inverting Input3
Output1
InvertingInput1
Output2
PIN CONNECTIONS (top view)
DIP14(Plastic Package)
SO14(Plastic Micropackage)
ORDER CODES
Part Number Temperature
Range
PackageTS274C/AC/BC 0oC,+70oC ll
TS274I/AI/BI -40oC, +125oC ll
TS274M/AM/BM -55oC, +125oC ll
Example: TS274ACN
DESCRIPTIONThe TS274 seriesare low cost, low power quad
operational amplifiers designedto operate with
singleor dual supplies. These operational amplifi-
ers usethe SGS-THOMSON silicon gate CMOS
process allowingan excellent consumption-speed
ratio. These seriesare ideally suitedforlow con-
sumption applications.
Three power consumptionsare available allowing have alwaysthe best consumption-speed ratio: ICC=10μA/amp.: TS27L4 (very lowpower) ICC= 150μA/amp.: TS27M4 (low power) ICC= 1mA/amp.: TS274 (high speed)
These CMOS amplifiers offer very high inputim-
pedance and extremelylow input currents.
The major advantage versus JFET devicesisthe
verylow input currents drift with temperature
(see figure2).
1/8
EInput
differential
Second
stage
Output
stage OutputVV
Current
source xI
BLOCK DIAGRAM
MAXIMUM RATINGS
Symbol Parameter Value UnitVCC+ Supply Voltage- (note1) 18 V
Vid Differential Input Voltage- (note2) ±18 V Input Voltage- (note3) -0.3to18 V Output CurrentforVCC+≥15V ±30 mA
Iin Input Current ±5mA
Toper Operating Free-Air Temperature Range
TS274C/AC/BC
TS274I/AI/BI
TS274M/AM/BM
0to+70
-40to +125
-55to +125C
Tstg Storage Temperature Range -65to +150 oC
Notes:1.All voltage values, except differential voltage,arewith respectto network ground terminal. Differential voltagesare atthe non-inverting input terminalwith respect tothe invertinginput terminal.The magnitudeoftheinputandthe output voltagesmust never exceedthe magnitudeofthe positive supply voltage.
OPERATING CONDITIONS
Symbol Parameter Value UnitVCC+ Supply Voltage 3to16 V
Vicm Common Mode Input Voltage Range 0toVCC+-1.5 V
TS274C,I,M2/8
TT 22Input
Output
Input
SCHEMATIC DIAGRAM (for1/4 TS274)
TS274C,I,M3/8
ELECTRICAL CHARACTERISTICSVCC+= +10V, VCC-=0V, Tamb =25oC (unless otherwise specified)
Symbol Parameter TS274C/AC/BC TS274I/AI/BI
TS274M/AM/BM Unit
Min. Typ. Max. Min. Typ. Max.Vio Input OffsetVoltage= 1.4V,Vic=0V TS274C/I/M
TS274AC/AI/AM
TS274BC/BI/BM
Tmin.≤ Tamb≤ Tmax. TS274C/I/M
TS274AC/AI/AM
TS274BC/BI/BM
DVio Input OffsetVoltage Drift 2 2 μV/oC
Iio Input OffsetCurrent- (note1)
Vic=5V,Vo =5V
Tmin.≤ Tamb≤ Tmax.
Iib Input Bias Current- (note1)
Vic=5V,Vo =5V
Tmin.≤ Tamb≤ Tmax.
VOH High Level Output Voltage
Vid= 100mV,RL= 10kΩ
Tmin.≤ Tamb≤ Tmax.
8.4 8.2
VOL High Level Output Voltage
Vid= -100mV 50 50
Avd Large Signal Voltage Gain=1Vto6V,RL= 10kΩ,Vic =5V
Tmin.≤ Tamb≤ Tmax. 10
V/mV
GBP Gain Bandwidth Product= 40dB,RL= 10kΩ,CL= 100pF
fin= 100kHz
3.5 3.5
MHz
CMR Common Mode Rejection Ratio= 1.4V,Vic=1Vto 7.4V 65 80 65 80
SVR Supply Voltage Rejection Ratio
VCC+=5Vto10V,Vo= 1.4V 60 70 60 70
ICC Supply Current(per amplifier)=1,no load,Vo =5V
Tmin.≤ Tamb≤ Tmax.
1000 1500
1000 1500
1700 Output Short Circuit Current
Vid= 100mV,Vo =0V 60 60
Isink Output Sink Current
Vid= -100mV,Vo =VCC 45 45 Slew-Rateat Unity Gain= 10kΩ,CL= 100pF,Vi=3to7V 5.5 5.5
V/μs Phase Marginat Unity Gain= 40dB,RL= 10kΩ,CL= 100pF 40 40
Degrees
Kov Overshoot Factor 30 30 % Equivalent Input Noise Voltage= 1kHz,RS= 100Ω 30 30Hz
VO1/VO2 Channel Separation 120 120 dB
Note:1. Maximum valuesincludingunavoidable inaccuraciesofthe industrialtest.
TS274C,I,M4/8
TYPICAL CHARACTERISTICSSUPPLY VOLTAGE,V (V) 25°C1V/2
amb
0.5 8 12 16
OCC
SUPPLY
CURRENT,
(mA)
Figure1: Supply Current (each amplifier)
versusSupply Voltage-10 -8 -6 -4 -2 0
amb 25°C= 100mV5VCCOUTPUT CURRENT,I (mA)
OUTPU
VOLTAV=3V
Figure3a: High Level Output Voltage versus
High Level Output Current
amb 25°C= 0.5V= -100mV3V5V
OUTPUT
VOLTAGE,
(V) 2 3
OUTPUT CURRENT,I (mA)OL
Figure4a: High Level Output Voltage versus
High Level Output Current-50 -40 -30 -20 -10 0
amb 25°C= 100mV= 16VCC
OUTPUT CURRENT,I (mA)OH
OUTPUT
VOLTAGE,
(V)V=10V
Figure3b: High Level Output Voltage versus
HIgh Level Output Current 4 81216 20
OUTPUT
VOLTAGE,
(V)
amb 25°C= 0.5V= -100mV=10VCC=16V
OUTPUT CURRENT,I (mA)OL
Figure4b: High Level Output Voltage versus
High Level Output Current 50 75 100 125
INPUT
BIAS
CURRENT,
(pA)
100=10V5V
ambTEMPERATURE,T (°C)
Figure2: Input Bias Current versus FreeAir
Temperature
TS274C,I,M5/8
TYPICAL CHARACTERISTICS (continued)
-101010 2310 410 510 710
GAIN
(dB)
PHASE
(Degrees)
FREQUENCY,f (Hz) 25°C = 10V=10k Ω= 100pF =100
amb
VCL
PHASE
GAIN
Phase
Margin
Gain
Bandwidth
Product
Figure5: Open Loop Frequency Response and
Phase Shift 04 8 12 16
SUPPLY VOLTAGE,V (V)CC
amb 25°C= 10kΩ= 100pF1V
HASE
MARGIN,
(Degrees)
Figure7: Phase Margin versus Supply Voltage4 6 8 101214 16
SUPPLY VOLTAGE,V (V)CC
SLEW
RATES,
(V/ amb 25°C= 10k Ω= 100pF
Figure9: Slew Rates versus Supply VoltageCAPACITANCE,C (pF)
PHASE
MARGIN,
(Degrees)0 80 1006040 25°C= 10kΩ1=10V
amb
Figure8: Phase Margin versus Capacitive Load 8 12 16
GAIN
BANDW.
PROD.,
GBP
(MHz)
amb 25°C= 10k Ω= 100pF1
SUPPLY VOLTAGE,V (V)CC
Figure6: Gain Bandwidth Product versus
Supply Voltage
EQUIVALENT
INPUT
NOISE
VOLTAGE
(nV/VHz) 10 100 1000
FREQUENCY (Hz) 10V
=25°CTamb
VCC
=100ΩRS
Figure10: Input Voltage Noise versus Frequency
TS274C,I,M6/8
