Parameters | |
---|---|
Series | - |
Moisture Sensitivity Level (MSL) | 1 (Unlimited) |
RoHS Status | ROHS3 Compliant |
Package / Case | 16-BSOP (0.252", 6.40mm Width) + 2 Heat Tabs |
Interface | On/Off |
Mfr | Toshiba Semiconductor and Storage |
Mounting Type | Surface Mount |
Operating Temperature | -40°C ~ 85°C (TA) |
Input Type | Inverting |
Output Type | N-Channel |
Number of Outputs | 4 |
Switch Type | General Purpose |
Supplier Device Package | 16-HSOP |
Output Configuration | Low Side |
Fault Protection | - |
Voltage - Supply (Vcc/Vdd) | Not Required |
Voltage - Load | 50V (Max) |
Rds On (Typ) | 430mOhm |
Current - Output (Max) | 1.25A |
Ratio - Input:Output | 1:1 |
Features | - |
Package | Tape & Reel (TR) |
Product Status | Active |
Base Product Number | TBD62064 |
Standard Package | 1,500 |
ECCN | EAR99 |
HTSUS | 8542.39.0001 |
The Toshiba TBD62064AFG,EL is a 4-channel high current sink type DMOS transistor array designed for high functionality, low power consumption, and miniaturization, which are crucial in programmable logic controller (PLC) designs. This device features a built-in clamp diode for switching inductive loads in each output, ensuring safe and efficient operation. This device is known for its robust performance and is suitable for power supply units, input and output module units, and control signal transmission units.
TBD62064AFG,EL Power Switch/Driver Features
1. 4 circuits built-in for diverse control applications.
2. High output voltage of VOUT = 50V (MAX) to accommodate various loads.
3. High output current of IOUT = 1.5A per channel (MAX), making it suitable for demanding power control tasks.
4. Input voltage (output on) of 2.5V (MIN) and input voltage (output off) of 0.6V (MAX) for reliable control.
5. Packaged in PG type DIP16-P-300-2.54A and FG type HSOP16-P-300-1.00, offering flexibility in board design.
TBD62064AFG,EL Power Switch/Driver Applications
The TBD62064AFG,EL is ideal for applications in power supply units, input and output module units, and control signal transmission units, among others, and is equipped to handle the rigorous demands of modern electronic systems. Its high current capacity and robust design make it suitable for driving inductive loads such as motors, solenoids, or relays.