TELCOM TC913ACOA

1
TC913A
TC913B
DUAL AUTO-ZEROED OPERATIONAL AMPLIFIERS
2
FEATURES
GENERAL DESCRIPTION
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The TC913 is the world's first complete monolithic,
dual auto-zeroed operational amplifier. The TC913 sets a
new standard for low-power, precision dual-operational
amplifiers. Chopper-stabilized or auto-zeroed amplifiers
offer low offset voltage errors by periodically sampling
offset error, and storing correction voltages on capacitors.
Previous single amplifier designs required two user-supplied, external 0.1µF error storage correction capacitors —
much too large for on-chip integration. The unique TC913
architecture requires smaller capacitors, making on-chip
integration possible. Microvolt offset levels are achieved
and external capacitors are not required.
The TC913 system benefits are apparent when contrasted with a TC7650 chopper amplifier circuit implementation. A single TC913 replaces two TC7650's and four
capacitors. Five components and assembly steps are eliminated.
The TC913 pinout matches many popular dualoperational amplifiers: OP-04, TLC322, LM358, and
ICL7621 are typical examples. In many applications,
operating from dual 5V power supplies or single supplies,
the TC913 offers superior electrical performance, and can
be a functional drop-in replacement; printed circuit board
rework is not necessary. The TC913's low offset voltage
error eliminates offset voltage trim potentiometers often
needed with bipolar and low-accuracy CMOS operational
amplifiers.
The TC913 takes full advantage of TelCom's proprietary CMOS technology. Unity gain bandwidth is 1.5 MHz
and slew rate is 2.5 V/µsec.
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First Monolithic Dual Auto-Zeroed Operational
Amplifier
Chopper Amplifier Performance Without External
Capacitors
— VOS ........................................................ 15µV Max
— VOS Drift ....................................... 0.15µV/°C Max
— Saves Cost/Assembly of Four "Chopper"
Capacitors
SOIC Packages Available
High DC Gain ................................................. 120dB
Low Supply Current ...................................... 650µA
Low Input Voltage Noise
(0.1 Hz to 10 Hz) ........................................ 0.65µVP-P
Wide Common-Mode
Voltage Range ................................. VSS to VDD – 2V
High Common-Mode Rejection .................... 116dB
Dual or Single Supply Operation .... ±3.3V to ±8.3V
+6.5V to +16V
Excellent AC Operating Characteristics
— Slew Rate ............................................. 2.5V/µsec
— Unity-Gain Bandwidth ............................. 1.5MHz
Pin Compatible With LM358, OP-14, MC1458,
ICL7621, TL082, TLC322
ORDERING INFORMATION
Part No.
Package
TC913ACOA
TC913ACPA
TC913BCOA
TC913BCPA
8-Pin SOIC
8-Pin Plastic DIP
8-Pin SOIC
8-Pin Plastic DIP
Temp.
Range
Maximum
Offset
Voltage
0°C to +70°C
0°C to +70°C
0°C to +70°C
0°C to +70°C
15µV
15µV
30µV
30µV
4
7
+
–IN A 2
+IN A 3
8 V DD
+
7 OUT B
–
V SS 4
6 –IN B
5 +IN B
TC913ACPA
TC913BCPA
–IN A 2
+
+IN A 3
A
8 V DD
A
– + B
A
–
B
*
B
INTERNAL
OSCILLATOR
(f OSC ≈ 200 Hz)
7 OUT B
–
V SS 4
TC913ACOA
TC913BCOA
*
6 –IN B
5 +IN B
–INPUT A
–INPUT B
–INPUT A
–INPUT B
2
6
5
3
–
LOW IMPEDANCE
OUTPUT BUFFER
+
+
MAIN
AMPLIFIER
–
TC913
1
7
OUTPUT A
OUTPUT B
1 OF 2 AMPLIFIERS SHOWN
8
*NOTE: Internal capacitors. No external capacitors required.
TC913A/B-8 9/3/96
TELCOM SEMICONDUCTOR, INC.
6
8
VOS CORRECTION AMPLIFIER
A
– + B
5
VDD
VSS
OUT A 1
4
FUNCTIONAL BLOCK DIAGRAM
PIN CONFIGURATION (SOIC and DIP)
OUT A 1
3
3-269
DUAL AUTO-ZEROED
OPERATIONAL AMPLIFIERS
TC913A
TC913B
Package Power Dissipation (TA = ≤ 70°C)
Plastic SOIC ................................................... 470mW
Plastic DIP ......................................................730mW
ABSOLUTE MAXIMUM RATINGS*
Total Supply Voltage (VDD to VSS ) .......................... +18V
Input Voltage ........................ (VDD + 0.3V) to (VSS – 0.3V)
Current into Any Pin .................................................10mA
While Operating ................................................100µA
Storage Temperature Range ................ – 65°C to +150°C
Lead Temperature (Soldering, 10 sec) ................. +300°C
Operating Temperature Range
C Device ................................................ 0°C to +70°C
*Static-sensitive device. Unused devices should be stored in conductive
material. Stresses above those listed under “Absolute Maximum Ratings”
may cause permanent damage to the device. These are stress ratings only
and functional operation of the device at these or any other conditions
above those indicated in the operational sections of the specifications is not
implied.
ELECTRICAL CHARACTERISTICS: VS = ±5V, TA = +25°C, unless otherwise indicated.
Min
TC913A
Typ
Max
Min
TC913B
Typ
Max
Unit
—
—
—
5
0.05
0.05
15
0.15
0.15
—
—
—
15
0.1
0.1
30
0.25
0.25
µV
µV/°C
µV/°C
—
—
—
—
—
—
—
110
—
—
—
5
—
0.6
11
116
90
3
4
20
1
—
—
—
—
—
—
—
—
—
—
100
—
—
—
10
—
0.6
11
110
120
4
6
40
1
—
—
—
pA
nA
nA
pA
nA
µVP-P
µVP-P
dB
VSS
—
VDD – 2
VSS
—
VDD – 2
V
RL = 10 kΩ, VO = ±4V
115
120
—
110
120
—
dB
RL = 10 kΩ
Closed Loop Gain = +1
VSS + 0.3
—
—
1.5
VDD – 0.9
—
VSS + 0.3
—
—
1.5
VDD – 0.9
—
V
MHz
RL = 10 kΩ, CL = 50 pF
±3.3V ≤ VS ≤ ±5.5V
—
110
2.5
—
—
—
—
100
2.5
—
—
—
V/µs
dB
Split Supply
Single Supply
VS = ±5V
±3.3
6.5
—
—
—
0.65
±8.3
16
0.85
±3.3
6.5
—
—
—
—
±8.3
16
1.1
V
V
mA
Symbol Parameter
Test Conditions
VOS
TCVOS
TA = +25°C
0°C ≤ TA ≤ +70°C
–25°C ≤ TA ≤ +85°C
(Note 1)
TA = +25°C
0°C ≤ TA ≤ +70°C
–25°C ≤ TA ≤ +85°C
TA = +25°C
TA = +85°C
0.1 to 1 Hz, RS ≤ 100Ω
0.1 to 10 Hz, RS ≤ 100Ω
VSS ≤ VCM ≤ VDD – 2.2V
IB
IOS
eN
CMRR
CMVR
AOL
VOUT
BW
SR
PSRR
VS
IS
NOTE:
3-270
Input Offset Voltage
Average Temperature
Coefficient of Input
Offset Voltage
Average Input Bias
Current
Average Input
Offset Current
Input Voltage Noise
Common-Mode
Rejection Ratio
Common-Mode
Voltage Range
Open-Loop Voltage
Gain
Output Voltage Swing
Closed-Loop
Bandwidth
Slew Rate
Power Supply
Rejection Ratio
Operating Supply
Voltage Range
Quiescent Supply
Current
1. Characterized; not 100% tested.
TELCOM SEMICONDUCTOR, INC.
DUAL AUTO-ZEROED
OPERATIONAL AMPLIFIERS
1
TC913A
TC913B
Theory of Operation
Avoiding Latch-Up
Each of the TC913's two op-amps actually consists of
two amplifiers. A main amplifier is always connected from
the input to the output. A separate nulling amplifier alternately nulls its own offset and then the offset of the amplifier.
Since each amplifier is continuously being nulled, offset
voltage drift with time, temperature, and power supply
variations is greatly reduced.
All nulling circuitry is internal and the nulling operation is
transparent to the user. Offset nulling voltages are stored on
two internal capacitors. An internal oscillator and control
logic, shared by the TC913's two amplifiers, control the
nulling process.
Junction-isolated CMOS circuits inherently contain a
parasitic p-n-p-n transistor circuit. Voltages exceeding the
supplies by 0.3V should not be applied to the device pins.
Larger voltages can turn the p-n-p-n device on, causing
excessive device power supply current and power dissipation. The TC913's power supplies should be established at
the same time or before input signals are applied. If this is
not possible, input current should be limited to 0.1mA to
avoid triggering the p-n-p-n structure.
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3
Pin Compatibility
The TC913 pinout is compatible with OP-14, LM358,
MC1458, LT1013, TLC322, and similar dual op amps. In
many circuits operating from single or ±5V supplies, the
TC913 is a drop-in replacement offering DC performance
rivaling that of the best single op amps.
The TC913's amplifiers include a low-impedance class
AB output buffer. Some previous CMOS chopper amplifiers
used a high-impedance output stage which made open-loop
gain dependent on load resistance. The TC913's open-loop
gain is not dependent on load resistance.
4
5
Overload Recovery
The TC913 recovers quickly from output saturation.
Typical recovery time from positive output saturation is
20msec. Negative output saturation recovery time is typically 5msec.
6
7
8
TELCOM SEMICONDUCTOR, INC.
3-271
DUAL AUTO-ZEROED
OPERATIONAL AMPLIFIERS
TC913A
TC913B
TYPICAL CHARACTERISTICS
Input Offset Voltage vs.
Common-Mode Voltage
1200
800
600
400
200
0
2
3
4
5
6
± SUPPLY VOLTAGE (V)
7
8
± OUTPUT VOLTAGE (V)
Output Voltage Swing vs.
Load Resistance
TA = +25°C
VS = ±5V
4.2
30
VS = ±5V
TA = +25°C
40
CLOSED-LOOP GAIN (dB)
INPUT OFFSET VOLTAGE (µV)
SUPPLY CURRENT (µA)
1000
5.0
Gain and Phase vs. Frequency
50
35
TA = +25°C
25
20
15
10
5
0
–6 –5 –4 –3 –2 –1 0 1 2 3 4
INPUT COMMON-MODE VOLTAGE (V)
Negative Overload Recovery Time
PHASE
30
+SWING
180
135
GAIN
20
90
10
45
0
0
–10
–45
–20
–90
–30
–135
–40
10k
–180
10M
100k
1M
FREQUENCY (Hz)
Positive Overload Recovery Time
RL = 10 kΩ
TA = +25°C
–SWING
225
VS = ±5V
TA = +25°C
RL = 10 kΩ
PHASE (deg)
Supply Current vs. ± Supply Voltage
OUTPUT =
2 V/DIV
INPUT
0V
0V
3.4
2.6
OUTPUT
= 2 V/DIV
1.8
GAIN = –20
1.0
100
3-272
1k
10k
100k
LOAD RESISTANCE (Ω)
1M
HORIZONTAL SCALE = 20 msec/DIV
INPUT
INPUT
GAIN = –20
HORIZONTAL SCALE = 20 msec/DIV
TELCOM SEMICONDUCTOR, INC.