TS902IDT ,INPUT/OUTPUT RAIL TO RAIL DUAL CMOS OP-AMPS (WITH STANDBY POSITION)TS902RAIL TO RAIL CMOS DUALOPERATIONAL AMPLIFIER (WITH STANDBY POSITION) N = Dual in Line Package ..
TS902IN ,INPUT/OUTPUT RAIL TO RAIL DUAL CMOS OP-AMPS (WITH STANDBY POSITION)TS902RAIL TO RAIL CMOS DUALOPERATIONAL AMPLIFIER (WITH STANDBY POSITION) N = Dual in Line Package ..
TS904AI ,RAIL TO RAIL CMOS QUAD OPERATIONAL AMPLIFIER WITH STANDBY POSITIONTS904 RAIL TO RAIL CMOS QUADOPERATIONAL AMPLIFIER (WITH STANDBY POSITION).RAIL TO RAIL INPUT AND O ..
TS904AID ,INPUT/OUTPUT RAIL TO RAIL QUAD CMOS OP-AMPSELECTRICAL CHARACTERISTICS+ - + oV = 5V, V = 0V, R ,C connected to V /2 ,pin 8 and pin 9 connected ..
TS904ID ,INPUT/OUTPUT RAIL TO RAIL QUAD CMOS OP-AMPSELECTRICAL CHARACTERISTICS+ - + oV = 3V, V = 0V, R ,C connected to V /2, pin 8 and pin 9 connected ..
TS904IN ,INPUT/OUTPUT RAIL TO RAIL QUAD CMOS OP-AMPSTS904®RAIL TO RAIL CMOS QUADOPERATIONAL AMPLIFIER (WITH STANDBY POSITION).RAIL TO RAIL INPUT AND OU ..
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UAA4000 ,Remote Control TransmitterBLOCK DIAGRAM
SUPPLY SWITCH
&
REGULATOR
SWITC H
MATRIX
CURRENT . det,
sounces
PULSE ..
UAA4006ADP , SWITCH MODE POWER SUPPLY CONTROL CIRCUIT
TS902AID-TS902ID-TS902IDT-TS902IN
INPUT/OUTPUT RAIL TO RAIL DUAL CMOS OP-AMPS (WITH STANDBY POSITION)
RAIL TO RAIL INPUT AND OUTPUT VOLT-AGE RANGES�
STANDBY POSITION : REDUCED CON-SUMPTION (0.5μA) AND HIGH IMPEDANCE OUTPUTS� SINGLE (OR DUAL) SUPPLY OPERATION
FROM 2.7V TO 16V � EXTREMELY LOW INPUT BIAS CURRENT :
1pA typ� LOW INPUT OFFSET VOLTAGE : 5mV max.� SPECIFIED FOR 600Ω AND 100Ω LOADS� LOW SUPPLY CURRENT : 200μA/Ampli
(VCC = 3V)
SPICE MACROMODEL INCLUDED IN THIS-SPECIFICATION
DESCRIPTIONThe TS902 is a RAIL TO RAIL CMOS dual opera-
tional amplifier designed to operate with a single
or dual supply voltage.
The input voltage range Vicm includes the two sup-
ply rails VCC+ and VCC-.
The output reaches : VCC- +50mV VCC+ -50mV with RL = 10kΩ� VCC- +350mVVCC+ -400mV with RL = 600Ω
This product offers a broad supply voltage operat-
ing range from 2.7V to 16V and a supply current of
only 200μA/amp. (VCC = 3V).
Source and sink output current capability is typi-
cally 40mA (at VCC = 3V), fixed by an internal limi-
tation circuit.
The TS902 can be put on STANDBY position
(only 0.5μA and high impedance outputs).
ORDER CODE
N = Dual in Line Package (DIP)
D = Small Outline Package (SO) - also available in Tape & Reel (DT)
PIN CONNECTIONS (top view)
TS902
RAIL TO RAIL CMOS DUALOPERATIONAL AMPLIFIER (WITH STANDBY POSITION)
TS902
SCHEMATIC DIAGRAM (1/2 TS902)
STANDBY POSITION
ABSOLUTE MAXIMUM RATINGS
OPERATING CONDITIONS All voltages values, except differential voltage are with respect to network ground terminal. Differential voltagesare non-inverting input terminal with respect to the inverting input terminal. The magnitude of input and output voltages must never exceed VCC+ +0.3V.
TS902
ELECTRICAL CHARACTERISTICSVCC+ = 10V, Vcc
- = 0V, RL, CL connected to VCC/2, Standby OFF, Tamb = 25°C (unless otherwise specified)
STANDBY MODEVCC+ = 10V, Vcc
- = 0V, Tamb = 25°C (unless otherwise specified) Maximum values including unavoidable inaccuracies of the industrial test
TS902
TYPICAL CHARACTERISTICS
Figure 1a : Supply Current (each amplifier)
vs Supply Voltage
Figure 1b : Supply Current (each amplifier)
vs Supply Voltage (in STANDBY
mode)
Figure 2 : Input Bias Current vs Temperature
Figure 3a : High Level Output Voltage vs High
Level Output Current
Figure 3b : High Level Output Voltage vs High
Level Output Current
Figure 4a : Low Level Output Voltage vs Low
Level Output Current
TS902
Figure 4b : Low Level Output Voltage vs Low
Level Output Current
Figure 5a : Gain and Phase vs Frequency
Figure 5b : Gain and Phase vs Frequency
Figure 6a : Gain Bandwidth Product vs Supply
Voltage
Figure 6b : Gain Bandwidth Product vs Supply
Voltage
Figure 7a : Phase Margin vs Supply Voltage
TS902
Figure 7b : Phase Margin vs Supply Voltage
Figure 8 : Input Voltage Noise vs Frequency
STANDBY APPLICATIONThe two operators of the TS902 are both put on STANDBY.
In this configuration (standby ON) : The total consumption of the circuit is considerably reduced down to 0.5μA (VCC = 3V).
This standby consumption vs VCC curve is given figure 1b. The both outputs are in high impedance state.
No output current can then be sourced or sinked by the device.
The standby pin 1 should never stay unconnected. The “standby OFF” state, is reached when the pin 1 voltage is higher than Vin SBY/OFF. The “standby ON” state is assured by a pin 1 voltage lower than Vin SBY/ON.
(see electrical characteristics)