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TS904AI
RAIL TO RAIL CMOS QUAD OPERATIONAL AMPLIFIER WITH STANDBY POSITION
TS904
RAIL TO RAIL CMOS QUAD
OPERATIONAL AMPLIFIER (WITH
STANDBY POSITION)
April 1999
RAILTO RAIL INPUT AND OUTPUT
VOLTAGERANGES. 2SEPARATE
STANDBY: REDUCED
CONSUMPTION (0.5μA) ANDHIGH
IMPED-
ANCE OUTPUTS. SINGLE (OR DUAL) SUPPLY OPERATION
FROM
2.7VTO 16V. EXTREMELY LOW INPUT BIAS CURRENT:
1pA TYP. LOW INPUT OFFSET VOLTAGE: 5mVmax.. SPECIFIED FOR
600Ω AND
150Ω LOADS. LOW SUPPLYCURRENT: 200μA/Ampli.
SPICEMACROMODEL INCLUDEDIN THIS
SPECIFICATIONV+
Non-invertingInput2
Standby1
Output1
Non-invertinginput1
InvertingInput1CCV
InvertingInput2
Output2 Output4
InvertingInput4
Non-inverting input4
Non-invertinginput3
Invertinginput3
Standby2
Output3
PIN CONNECTIONS (top view)
DIP16(Plastic Package)
DESCRIPTIONThe TS904isa RAILTO RAIL quad CMOS opera-
tional amplifier designedto operate witha singleor
dual supply voltage.
The input voltage range Vicm includes the two
supply rails VCC+ and VCC-.
The output reaches: VCC- +50mV VCC+ -50mV withRL= 10kΩ VCC- +350mV VCC+ -350mV withRL= 600Ω
This product offersa broad supply voltage operat-
ing range from 2.7Vto 16Vanda supply currentof
only 200μA/amp. (VCC=3V)
Source and sink output current capabilityis typi-
cally 40mA(at VCC= 3V), fixedbyan internal
limitation circuit.
The TS904 offerstwo separate
STANDBY pins STANDBY1 actingonthen°2 and
n°3 operators STANDBY2 actingonthen°1 and
n°4 operators
They reducethe consumptionofthe corresponding
operators andputthe outputsina high impedance
state.
These two STANDBY pins should never staynot
connected.
STMicroelectronicsis offeringa quad op-amp with
the same features: TS902.
SO16(Plastic Micropackage)
ORDER CODES
Part Number Temperature Range PackageTS904I/AI -40, +125oC ••
1/12
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value UnitVCC Supply Voltage- (note1) 18 V
Vid Differential Input Voltage- (note2) ±18 V Input Voltage- (note3) -0.3to18 V
Iin Currenton Inputs ±50 mA Currenton Outputs ±130 mA
Toper Operating FreeAir Temperature Range TS904I/AI -40to +125 oC
Tstg Storage Temperature -65to +150 oC
Notes:1.All voltage values, except differential voltagearewith respectto network ground terminal. Differential voltagesare thenon-inverting inputterminalwith respecttothe invertinginput terminal.The magnitude ofinputand output voltagesmust never exceedVCC+ +0.3V.
Non-inverting
Input Inverting
Input
Internal
Vref
Output
VCC
VCC
Standby
Standby
Standby
Standby
SCHEMATIC DIAGRAM (1/4 TS904)
Non-inverting
Input
Inverting
Input
Internal
Vref
Output
VCC
VCC
Standby
Standby
Standby
Standby
STANDBY POSITION
OPERATING CONDITIONS
Symbol Parameter Value UnitVCC Supply Voltage 2.7to16 V
Vicm Common Mode Input Voltage Range VCC--0.2toVCC+ +0.2 V
TS9042/12
ELECTRICALCHARACTERISTICSVCC+ =3V,VCC- =0V, RL,CL connectedto VCC/2,pin8 andpin9 connectedto VCC+
, Tamb =25oC
(unless otherwise specified)
Symbol Parameter
Min. Typ. Max. UnitVio Input Offset Voltage(Vic =Vo =VCC/2) TS904
TS904A
Tmin.≤ Tamb≤ Tmax. TS904
TS904A
DVio Input Offset VoltageDrift 5 μV/oC
Iio Input Offset Current- (note1)
Tmin.≤ Tamb≤ Tmax. 100
Iib InputBias Current- (note1)
Tmin.≤ Tamb≤ Tmax. 150
ICC Supply Current(per amplifier, AVCL=1,no load)
Tmin.≤ Tamb≤ Tmax.
200 300
400 μA
CMR Common Mode Rejection Ratio
Vic=0to3V,Vo= 1.5V 40 70
SVR Supply Voltage Rejection Ratio (VCC+=2.7to 3.3V,VO =VCC/2) 40 70 dB
Avd Large Signal VoltageGain(RL= 10kΩ,VO= 1.2Vto 1.8V)
Tmin.≤ Tamb≤ Tmax. V/mV
VOH High Level Output Voltage(Vid=1V) RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
VOL Low Level Output Voltage(Vid= -1V) RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
600 Output Short Circuit Current(Vid= ±1V) Source (Vo =VCC−)
Sink (Vo =VCC+)
GBP Gain Bandwidth Product
(AVCL= 100,RL= 10kΩ,CL= 100pF,f= 100kHz) 0.8
MHz+ Positive Slew Rate
(AVCL=1,RL= 10kΩ,CL= 100pF,Vi =1.3Vto 1.7V) 0.5
V/μs- NegativeSlew Rate
(AVCL=1,RL= 10kΩ,CL= 100pF,Vi =1.3Vto 1.7V) 0.4
V/μs Phase Margin 30 Degrees Equivalent Input Noise Voltage(Rs= 100Ω,f= 1kHz) 30 nVHz
VO1/VO2 Channel Separation(f= 1kHz) 120 dB
Note1 :Maximum values includingunavoidable inaccuraciesofthe industrialtest.
TS9043/12
ELECTRICAL CHARACTERISTICSVCC+ =5V, VCC- =0V, RL,CL connectedto VCC/2 ,pin8 andpin9 connectedto VCC+ ,Tamb =25oC
(unless otherwise specified)
Symbol Parameter Min. Typ. Max. UnitVio Input Offset Voltage(Vic =Vo =VCC/2) TS904
TS904A
Tmin.≤ Tamb≤ Tmax. TS904
TS904A
DVio Input Offset VoltageDrift 5 μV/oC
Iio Input Offset Current- (note1)
Tmin.≤ Tamb≤ Tmax. 100
Iib Input Bias Current- (note1)
Tmin.≤ Tamb≤ Tmax. 150
ICC Supply Current(per amplifier, AVCL=1,no load)
Tmin.≤ Tamb≤ Tmax.
230 350
450 μA
CMR Common Mode Rejection Ratio
Vic=1.5to 3.5V,Vo= 2.5V 50 75
SVR Supply Voltage Rejection Ratio (VCC+=3to5V,VO =VCC/2) 50 80 dB
Avd Large Signal Voltage Gain(RL= 10kΩ,VO= 1.5Vto 3.5V)
Tmin.≤ Tamb≤ Tmax. V/mV
VOH High Level Output Voltage(Vid=1V) RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
VOL Low Level Output Voltage(Vid=-1V RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
750 Output Short Circuit Current(Vid= ±1V) Source (Vo =VCC−)
Sink (Vo =VCC+)
GBP Gain Bandwidth Product
(AVCL= 100,RL= 10kΩ,CL= 100pF,f= 100kHz) 0.9
MHz+ Positive Slew Rate (AVCL=1,RL= 10kΩ,CL= 100pF,Vi=1Vto4V) 0.8 V/μs- Negative Slew Rate (AVCL=1,RL= 10kΩ,CL= 100pF,Vi=1V to4V) 0.5 V/μs Phase Margin 30 Degrees
Note1 :Maximum values includingunavoidable inaccuraciesofthe industrialtest.
TS9044/12
ELECTRICAL CHARACTERISTICSVCC+= 10V, VCC- =0V, RL,CL connectedto VCC/2,pin8 and9 connectedto VCC+ ,Tamb =25oC
(unless otherwise specified)
Symbol Parameter Min. Typ. Max. UnitVio Input Offset Voltage(Vic =Vo =VCC/2) TS904
TS904A
Tmin.≤ Tamb≤ Tmax. TS904
TS904A
DVio Input Offset VoltageDrift 5 μV/oC
Iio Input Offset Current- (note1)
Tmin.≤ Tamb≤ Tmax. 100
Iib Input Bias Current- (note1)
Tmin.≤ Tamb≤ Tmax. 150
ICC Supply Current(per amplifier, AVCL=1,no load)
Tmin.≤ Tamb≤ Tmax.
400 600
700 μA
CMR Common Mode Rejection Ratio Vic=3to7V,Vo =5V
Vic=0to 10V,Vo =5V 75
SVR Supply Voltage Rejection Ratio (VCC+=5to 10V,VO =VCC/2) 50 80 dB
Avd Large Signal Voltage Gain(RL= 10kΩ,VO= 2.5Vto 7.5V)
Tmin.≤ Tamb≤ Tmax. V/mV
VOH High Level Output Voltage(Vid=1V) RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
VOL Low Level Output Voltage(Vid= -1V) RL= 10kΩ= 600Ω= 100Ω
Tmin.≤ Tamb≤ Tmax. RL= 10kΩ= 600Ω
900 Output Short Circuit Current(Vid= ±1V) Source (Vo =VCC−)
Sink (Vo =VCC+)
GBP Gain Bandwidth Product
(AVCL= 100,RL= 10kΩ,CL= 100pF,f= 100kHz) 1.3
MHz+ Positive Slew Rate
(AVCL=1,RL= 10kΩ,CL= 100pF,Vi= 2.5Vto 7.5V)
1.3 V/μs- Negative Slew Rate
(AVCL=1,RL= 10kΩ,CL= 100pF,Vi= 2.5Vto 7.5V)
0.8 V/μs Phase Margin 40 Degrees Equivalent Input Noise Voltage(Rs= 100Ω,f= 1kHz) 30 nVHz
THD Total Harmonic Distortion
(AVCL=1,RL= 10kΩ,CL= 100pF,VO= 4.75Vto 5.25V,f= 1kHz) 0.024
Cin Input Capacitance 1.5 pF
VO1/VO2 Channel Separation(f= 1kHz) 120 dB
Note1: Maximum values including unavoidable inaccuraciesofthe industrialtest.
STANDBY MODEVCC+= 10V, VCC- =0V, Tamb =25oC (unless otherwise specified)
Symbol Parameter TS904I/AI UnitMin. Typ. Max.VinSBY/ON Pin8/9 Threshold Voltagefor STANDBYON 8.2 V
Vin SBY/OFF Pin8/9 Threshold Voltagefor STANDBY OFF 8.5 V
ICCSBY
Total Consumption
Standby 1ON- Standby2 OFF
Standby 1OFF -Standby2ON
Standby 1and2ON
TS904
5/12
TYPICAL CHARACTERISTICS (standby OFF= standby1 and2 OFF)
(standbyON= standby1 and2 ON)SUPPLY VOLTAGE,V (V) 812 16
SUPPLY
CURRENT,
100= 25 C1V/2
StandbyOFF CC
VCL
amb
Figure1a: Supply Current (each amplifier)
versusSupply Voltage 50 75 100 125
INPUT
BIAS
CURRENT,
(pA)
ambTEMPERATURE,T(C) =10V5Vload
StandbyOFF
Figure2: Input Bias Current versus Temperature 28 42 56 70
OUTPUT
VOLTAGE,
(V)+5VCC =+3VCCOUTPUTCURRENT,I (mA) amb25C= 100mV
StandbyOFF
Figure4a: Low Level Output Voltage versus
Low Level Output Current
-70 -56 -42 -28 -14 0
OUTPUT
VOLTAGE,
(V) V=+5VCC =+3VCCOUTPUT CURRENT,I (mA)
amb25C= 100mV
StandbyOFF
Figure3a: High Level Output Voltage versus
High Level Output Current
OUTPUT
VOLTAGE,
(V)+16VCC+10VCCOUTPUTCURRENT,I (mA)
-70 -56 -42 -28 -14 0
amb25C= 100mV
StandbyOFF
Figure3b: High Level Output Voltage versus
High Level Output Current 12 16= 25 C1
StandbyON
VCL
ambSUPPLYVOLTAGE,V (V)
SUPPLY
CURRENT,
Figure1b: Supply Current (each amplifier)
versus Supply Voltage(in STANDBY
mode)
TS9046/12