Allicdata Part #: | MC74HC165AMNTWGOSTR-ND |
Manufacturer Part#: |
MC74HC165AMNTWG |
Price: | $ 0.10 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | ON Semiconductor |
Short Description: | IC SHIFT REGISTER 8BIT |
More Detail: | N/A |
DataSheet: | MC74HC165AMNTWG Datasheet/PDF |
Quantity: | 6000 |
3000 +: | $ 0.08857 |
6000 +: | $ 0.08320 |
15000 +: | $ 0.07783 |
30000 +: | $ 0.07139 |
75000 +: | $ 0.06871 |
Series: | 74HC |
Packaging: | Tape & Reel (TR) |
Part Status: | Active |
Logic Type: | Shift Register |
Output Type: | Complementary |
Number of Elements: | 1 |
Number of Bits per Element: | 8 |
Function: | Parallel or Serial to Serial |
Voltage - Supply: | 2 V ~ 6 V |
Operating Temperature: | -55°C ~ 125°C |
Mounting Type: | Surface Mount |
Package / Case: | 16-VFQFN Exposed Pad |
Supplier Device Package: | 16-QFN (2.5x3.5) |
Due to market price fluctuations, if you need to purchase or consult the price. You can contact us or emial to us: sales@allicdata.com
The MC74HC165AMNTWG is one of the top-level logic-shift registers used in various applications. This type of shift registers are commonly utilized in industrial and commercial settings to move information from one place to another on a computer or any other device. This article will provide an overview of the MC74HC165AMNTWG application field and its working principle.
Application Field of MC74HC165AMNTWG
The MC74HC165AMNTWG is a high-performance 8-bit shift register. It is well-suited for use in industrial, automotive, s and commercial applications. These applications include:
- In data transmission systems, to transfer data between two points
- In computer systems, an 8-bit shift registers can be used to increase the number of available address lines
- High-speed computing systems utilise shift registers to move data from one location to another. The shift register can be used to store data temporarily in data buffers. The data can then easily be accessed upon need.
- The shift register is also used in analogue-to-digital conversion as well as digital-to-analogue conversion.
The MC74HC165AMNTWG is one of the best choices for these applications due to its high performance, low cost, and simple interface.
Working Principle of MC74HC165AMNTWG
The principal parts of the MC74HC165AMNTWG are its 8 individual data shift register stages, a clock in (CP) input, a clock enable (CE) input, an enable (E) input, and three output enable (OE) inputs. The inputs are used to control the shifting process. The CP input is connected to the pulse source of the clock, the CE input receives a logic signal from the logic circuit, and the E input is used to enable the clock pulses. The OE inputs are used to receive logic signals from the logic circuit that determine if the data stored in the shift register is allowed to be outputted.
When a logic one is applied to the CP input, it starts the shifting process. The data stored in the first shift register is shifted to the next shift register, and the latter’s contents moved to the subsequent shift register, and so on. This process continues until the eighth stage is reached, and the generated output is given out. The rate at which the shift register operates is determined by the pulse supplied at the CP input. If the CE input receives a logic 0, the shifting operation will be disabled. The E input on the other hand is used to select which phase of the shifting operation to be enabled.
The shift register can either output all eight bits at once, or each bit at a time with the help of the three OE inputs. When two of the OE inputs received a logic one, the data from the first shift register will be outputted. When the third OE input receives a logic zero, the data from the second shift register will be outputted and so on. Thus, by controlling the OE inputs, the shift register can provide the output at any desired speed.
In conclusion, the MC74HC165AMNTWG is one of the most widely used shift registers in various applications such as data transmission systems, computer systems, and high-speed computing systems. It is fast, simple to use, and cost-effective. Its working principle involves an 8-bit shift along with three different inputs and three outputs enable (OE) to control the process. A logic high applied to the clock input starts the process, and the result is given out at the output.
The specific data is subject to PDF, and the above content is for reference
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