Manufacturer Part #
TC913BCOA
TC913B Series 16 V 1.5 MHz Dual Auto-Zeroed Operational Amplifier -SOIC-8
Product Specification Section
Microchip TC913BCOA - Product Specification
Shipping Information:
Item cannot ship to certain countries. See List
Item cannot ship to following countries:
ECCN:
EAR99
PCN Information:
N/A
File
Date
Part Status:
Active
Active
Microchip TC913BCOA - Technical Attributes
Attributes Table
Amplifier Type: | Zero Drift |
No of Channels: | 2 |
Slew Rate-Nom: | 2.5V/µs |
Input Offset Voltage-Max: | 30µV |
Gain Bandwidth Product: | 1.5MHz |
Average Bias Current-Max: | 120pA |
Supply Voltage: | 3.5V to 16V |
Power Dissipation: | 470mW |
Common Mode Rejection Ratio: | 110dB |
Supply Current: | 650µA |
Power Supply Rejection Ratio: | 100dB |
Operating Temp Range: | 0°C to 70°C |
DC Voltage Gain: | 120dB |
Package Style: | SOIC-8 |
Mounting Method: | Surface Mount |
Features & Applications
The TC913BCOA is a Dual Auto-Zeroed Operational Amplifier with lower offset voltage and gain bandwidth of 1.5 MHz, available in surface mount SOIC-8 package.
Features:
- First Monolithic Dual Auto-Zeroed
- Operational Amplifier
- Chopper Amplifier Performance Without External Capacitors:
- VOS: 15 μV Max.
- VOS: Drift; 0.15 μV/°C Max.
- Saves Cost of External Capacitors
- High DC Gain; 120dB
- Low Supply Current; 650 μA
- Low Input Voltage Noise: 0.65 μVP-P (0.1 Hz to 10 Hz)
- 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: 1.5 MHz
Applications:
- Instrumentation
- Medical Instrumentation
- Embedded Control
- Temperature Sensor Amplifier
- Strain Gage Amplifier
Pricing Section
Global Stock:
0
Germany (Online Only):
0
Factory Lead Time:
7 Weeks
Quantity
Unit Price
100
$3.00
200
$2.98
400
$2.95
500
$2.94
1,500+
$2.89
Product Variant Information section
Available Packaging
Package Qty:
100 per Tube
Package Style:
SOIC-8
Mounting Method:
Surface Mount