ZXMN6A07ZTA Discrete Semiconductor Products |
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Allicdata Part #: | ZXMN6A07ZTR-ND |
Manufacturer Part#: |
ZXMN6A07ZTA |
Price: | $ 0.00 |
Product Category: | Discrete Semiconductor Products |
Manufacturer: | Diodes Incorporated |
Short Description: | MOSFET N-CH 60V 1.9A SOT-89 |
More Detail: | N-Channel 60V 1.9A (Ta) 1.5W (Ta) Surface Mount SO... |
DataSheet: | ZXMN6A07ZTA Datasheet/PDF |
Quantity: | 65000 |
Vgs(th) (Max) @ Id: | 3V @ 250µA |
Package / Case: | TO-243AA |
Supplier Device Package: | SOT-89-3 |
Mounting Type: | Surface Mount |
Operating Temperature: | -- |
Power Dissipation (Max): | 1.5W (Ta) |
FET Feature: | -- |
Input Capacitance (Ciss) (Max) @ Vds: | 166pF @ 40V |
Vgs (Max): | ±20V |
Gate Charge (Qg) (Max) @ Vgs: | 3.2nC @ 10V |
Series: | -- |
Rds On (Max) @ Id, Vgs: | 250 mOhm @ 1.8A, 10V |
Drive Voltage (Max Rds On, Min Rds On): | 4.5V, 10V |
Current - Continuous Drain (Id) @ 25°C: | 1.9A (Ta) |
Drain to Source Voltage (Vdss): | 60V |
Technology: | MOSFET (Metal Oxide) |
FET Type: | N-Channel |
Part Status: | Active |
Packaging: | Tape & Reel (TR) |
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ZXMN6A07ZTA is a small signal N-channel MOSFET (metal-oxide-semiconductor field-effect transistor) that falls under the single MOSFETs transistor category. It is used as a switch and amplifier in communication, industrial, and consumer electronics applications. The use of MOSFETs enables higher switching speeds and higher efficiency when compared to BJT (Bipolar Junction Transistors) and is popular in smaller packages.
MOSFETs rely on physical principles such as electrostatic attraction and repulsion. And to understand the working principle of ZXMN6A07ZTA, we need to look at the three terminals of this device. It has the gate (G), source (S), and drain (D) terminals, also known as pins. The channel that connects the source and drain is surrounded by a dielectric insulation whose thickness is usually in between one to several nanometers named as Gate Oxide which is composed of silicon dioxide (SiO2).
The gate terminal of the MOSFET serves as a control terminal that can turn on and off an electrical current flowing from the source to the drain. By applying the correct amount of voltage, it can be used as a switch and amplifier. This voltage is called the "Threshold Voltage". When the threshold voltage is achieved, negative charges are repelled from the drain and positive charges are repelled from the source enabling a current to flow. Conversely, when the voltage falls below the threshold voltage, no current flows through the device.
ZXMN6A07ZTA is ideal for applications that require a low-level gate and boost-style current control; however, it can also be used as a switch, a voltage regulator, and a signal amplifier. For example, it can be applied in power supply circuits, signal processing, and power analysis and management systems.
When used in an amplifier, transistors like ZXMN6A07ZTA have excellent characteristics such as high gain bandwidth and high output impedance. The gate resistor will configure current that can be used to drive an amplifier to a specific voltage level and also provide stability, with the voltage being set in relation to the gate voltage. For example, if a certain voltage is applied to the gate, the output of the amplifier will be the same as the voltage applied to the gate multiplied by the gain bandwidth.
When used in power supply control circuits, ZXMN6A07ZTA can be used to control an output voltage with an input current. The device turns on or off the power supply in response to the measured load current or any other sensed signal. This is necessary in order to reduce the overall power consumption of a system. The gate resistance can be adjusted to set up the current that is used to turn the transistor on or off.
The main applications of ZXMN6A07ZTA are in DC/DC converters, small signal amplifiers, low-power switches, and other low-power applications. It is an ideal choice for small-sized and low-power system design as it boasts excellent electrical switching characteristics and high power efficiency. Furthermore, its low gate threshold voltage allows it to be used in low input voltage applications. Finally, its low power requirements allow for implementation of a circuit that does not require a large heat dissipation system.
The specific data is subject to PDF, and the above content is for reference
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