The PT2272-M4 is a remote control encoder utilizing CMOS Technology, designed and manufactured by Princeton Technology Corp. This device is typically paired with a corresponding decoder, such as the PT2262, to form a complete remote control system. It's a crucial component in various wireless applications requiring a reliable and secure transmission of control signals. The M4 variant indicates a specific configuration or encoding scheme within the PT2272 series.

Applications:

• Car Alarm Systems: Used for remote arming/disarming and other functions.
• Remote Door Locks: Enables keyless entry systems for homes and vehicles.
• Wireless Security Systems: Integrated into alarm panels and sensors for remote control.
• Home Automation Systems: Controls lighting, appliances, and other devices remotely.
• Garage Door Openers: Provides wireless control for opening and closing garage doors.

Features:

• CMOS Technology: Offers low power consumption, extending battery life in portable applications.
• Multiple Address Options: Provides a wide range of address codes, minimizing interference and enhancing security.
• Data Transmission: Encodes data for wireless transmission, typically using Amplitude Shift Keying (ASK) or Frequency Shift Keying (FSK) modulation.
• Oscillator: Requires an external oscillator for generating the carrier frequency.
• Momentary Output: The output signal is only active while the button is pressed.

Benefits:

• Enhanced Security: Address encoding helps prevent unauthorized access and control.
• Low Power Consumption: Extends battery life, reducing the need for frequent replacements.
• Ease of Integration: Simple interface for connecting to transmitters and other components.
• Reliable Performance: CMOS technology ensures stable and consistent operation.
• Cost-Effective Solution: Provides a balance of performance and affordability for remote control applications.

The PT2272 series generally requires an external resistor to set the oscillator frequency. The specific value depends on the desired carrier frequency. The device is typically powered by a low voltage DC supply, often in the range of 3V to 12V. The output pins are usually open-drain or open-collector, requiring pull-up resistors. Datasheets provide detailed information regarding pin configurations, electrical characteristics, and application circuits.