MM74HC14M
Inverters Hex Inv Schmitt TrigMM74HC14M
Inverters Hex Inv Schmitt Trig
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MM74HC14M DataSheet
Pricing (USD)
Quantity | Unit Price | Ext. Price |
---|---|---|
1 | $0.408 | $0.41 |
10 | $0.331 | $3.31 |
55 | $0.266 | $14.63 |
110 | $0.224 | $24.64 |
495 | $0.206 | $101.97 |
990 | $0.195 | $193.05 |
These prices are subject to market fluctuations, and a quote submission is required to obtain the latest prices.
Interested Parts
MM74HC14M Details
The MM74HC14M is a high-performance CMOS inverter from ON Semiconductor, designed for reliable data transmission in noisy environments. This device is ideal for industrial communication applications, featuring high noise immunity, low power consumption, and a wide operating temperature range. It is housed in an SOIC-14 package, making it suitable for compact circuit designs.
Pinout
- A1 (A): Input A
- A2 (B): Input B
- A3 (Y): Output Y
- A4 (GND): Ground
- A5 (VCC): Positive Power Supply
(Tip: For detailed pinout information, please refer to the corresponding datasheet.)
Key Features
- High Noise Immunity: EN 61326 compliant for reliable operation in noisy environments.
- Low Power Consumption: 10 µA maximum supply current for energy-efficient designs.
- Wide Operating Temperature Range: -40°C to 125°C for flexibility and reliability.
Applications
- Industrial Automation: Suitable for industrial automation systems requiring reliable data transmission.
- Building Control Systems: Used in building control systems for efficient and reliable data communication.
- Aerospace and Defense: Ideal for aerospace and defense applications where high noise immunity and low power consumption are critical.
Where to Use
The MM74HC14M is suitable for applications that require reliable inverter functionality, especially in industrial and automotive environments. It is ideal for systems where high noise immunity and low power consumption are important.
How to Use
Connect the MM74HC14M to your circuit by wiring the A and B inputs to the respective signal sources. Ensure proper power supply connections to VCC and GND. Use the Y output to receive the inverted signal. For detailed usage instructions, refer to the datasheet.
Application Circuit
The application circuit diagram for the MM74HC14M illustrates how to connect the inverter to a typical industrial automation system. It includes connections for power supply, ground, and input signals, ensuring proper operation and reliable data transmission.
(Tip: For detailed circuit diagram connections and usage guide, refer to the datasheet.)
Equivalents
- 74HC14: A similar inverter from ON Semiconductor offering comparable features and performance.
- CD40106: An alternative inverter from Texas Instruments with equivalent functionality.
Complementary
The MM74HC14M can be complemented by the MM74HC02, which offers additional features such as higher noise immunity and enhanced power supply rejection ratio, suitable for more demanding communication applications.
When selecting complementary inverters, ensure that their features and specifications align with your specific application requirements for optimal performance and compatibility.
Frequently Asked Questions
Q: What is the maximum supply voltage supported by the MM74HC14M?
A: The MM74HC14M supports a maximum supply voltage of 6V. For more details, refer to the datasheet for specific operating conditions and limitations.
Q: Can the MM74HC14M be used in automotive communication systems?
A: Yes, the MM74HC14M is suitable for automotive communication systems, offering high noise immunity and reliable data transmission in demanding environments.
Specifications
The followings are basic parameters of the part selected concerning the characteristics of the part and categories it belongs to.
Status | Active | Compliance | PbAHP |
Package Type | SOIC-14 | Case Outline | 751A-03 |
MSL Type | 1 | MSL Temp (°C) | 260 |
Container Type | TUBE | Container Qty. | 55 |
ON Target | N | Type | Inverter |
Channels | 6 | VCC Min (V) | 2 |
VCC Max (V) | 6 | tpd Max (ns) | null |
IO Max (mA) | null | Pricing ($/Unit) | $0.204Sample |
Datasheet PDF
Datasheets record the features, absolute maximum ratings, applications and more of the device, which benefit a lot as an overall guide to the specific application of the part.
FAQs
What is MM74HC14M?
The MM74HC14M is a hex inverter with Schmitt trigger inputs, designed by Fairchild Semiconductor. It is part of the 74HC series of integrated circuits and is commonly used for signal conditioning, waveform shaping, and digital logic applications.
How Does MM74HC14M Work?
The MM74HC14M operates by converting input logic signals into inverted outputs with Schmitt trigger functionality. The Schmitt trigger inputs provide hysteresis, allowing the device to reject noise and provide clean transitions even with noisy input signals. It is commonly used to square up slow input rise and fall times.
How Many Pins does MM74HC14M have and What are the Functions of the Pinout Configuration?
The MM74HC14M is housed in a 14-pin SOIC (Small Outline Integrated Circuit) package. The pinout configuration includes:
- GND: Ground connection.
- VCC: Positive power supply pin.
- 1A - 6A: Input pins for the six inverters.
- 1Y - 6Y: Output pins for the six inverters.
What are the Pros and Cons of MM74HC14M?
Pros:
- Schmitt Trigger Inputs: Provides hysteresis for noise immunity and cleaner signal transitions.
- Hex Inverter Configuration: Offers six inverters in a single package for convenient logic signal processing.
- Wide Operating Voltage Range: Supports a wide range of supply voltages for flexibility in system design.
- High-Speed Operation: Performs logic inversion at high speeds for fast signal processing.
Cons:
- Power Consumption: May have higher power consumption compared to lower-speed logic devices.
- Propagation Delay: The device may introduce propagation delays in signal processing applications.
- Package Size: The 14-pin SOIC package may require PCB space and proper handling during assembly.
Are There Any Equivalents/Alternatives to MM74HC14M for Recommendation?
- An equivalent to the MM74HC14M is the SN74HC14 from Texas Instruments.
- Alternatives to the MM74HC14M include the CD40106 from Texas Instruments and the HCF40106 from STMicroelectronics.
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Price details
Prices listed do not include VAT.
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