Allicdata Part #: | EPM7160ELC84-10YY-ND |
Manufacturer Part#: |
EPM7160ELC84-10YY |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | Intel FPGAs/Altera |
Short Description: | IC CPLD 160MC 10NS 84PLCC |
More Detail: | N/A |
DataSheet: | EPM7160ELC84-10YY Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | MAX® 7000 |
Packaging: | Tray |
Part Status: | Obsolete |
Programmable Type: | EE PLD |
Delay Time tpd(1) Max: | 10.0ns |
Voltage Supply - Internal: | 4.75 V ~ 5.25 V |
Number of Logic Elements/Blocks: | 10 |
Number of Macrocells: | 160 |
Number of Gates: | 3200 |
Number of I/O: | 64 |
Operating Temperature: | 0°C ~ 70°C (TA) |
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:Embedded - CPLDs (complex programmable logic devices) are a type of integrated circuit that can be configured to perform a variety of logic functions, from simple digital gates to complex Boolean programs. One of the most popular CPLDs is the EPM7160ELC84-10YY, which is typically used in applications where high integration density, low cost, and flexibility are important demands. In this article, we will discuss the application field of the EPM7160ELC84-10YY and its internal working principle.
Application Field
The EPM7160ELC84-10YY is a programmable logic device developed by Altera, and it is widely used in a variety of different applications. It is a highly integrated device with a large set of configurable logic elements, which makes it well-suited for applications in the automotive, industrial, and medical industries, for example. It is also used for various communication and power management functions.
One common application for the EPM7160ELC84-10YY is automotive safety and security systems. It is used to control the operation of all the sensors required for these systems and to route the signals to the appropriate controllers in real-time. For example, it can be configured to detect motion or temperature and to activate alarms when these changes exceed certain thresholds. The EPM7160ELC84-10YY is also used to control access to vehicle systems, such as detection of unauthorized access attempts. Additionally, in communications applications, the EPM7160ELC84-10YY is used to decode digital communications signals, such as those used by Wi-Fi and Bluetooth devices.
Working Principle
The EPM7160ELC84-10YY is based on a time-multiplexed architecture, which is a type of logic device that supports multiple logic functions in parallel. It contains two-level logic architecture of programmable logic elements (PLEs) that are interconnected with programmable registers. These registers can be used to store the shape and number of the logic operations needed by the user\'s application. The EPM7160ELC84-10YY also includes a built-in memory module for storing the user\'s instructions.
The main advantage of using the EPM7160ELC84-10YY is that it allows for greater flexibility, efficiency, and accuracy in the design of logic devices. This is because it is based on a field-programmable gate array (FPGA), which is a reprogrammable device that can be configured to perform many different tasks. The EPM7160ELC84-10YY also has the ability to detect and detect errors in the logic circuits, which minimizes the possibility of errors in the system.
In addition, the EPM7160ELC84-10YY features several different I/O protocols, such as the Altera Standard I/O protocol and the Programmable Protocol Interface (PPI). For example, it supports signal transmission using SPI and I2C bus protocols. It also has a built-in JTAG interface, allowing users to quickly configure the device using its internal configuration memory.
The EPM7160ELC84-10YY also features an integrated power management solution, which allows the device to operate in two power states: active and standby. In the active state, the device is fully operational, while in the standby state the device is in a lower-power state that can be used for system management tasks. This ensures that the device consumes minimal power when not in use.
Overall, the EPM7160ELC84-10YY is a highly integrated device, which is ideal for various applications. Its flexibility, efficiency and accuracy have made it a popular choice for applications in the automotive, industrial, and medical industries, as well as for communications and power management systems.
The specific data is subject to PDF, and the above content is for reference
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