EPM7064SLC44-10N Detailed explanation of pin function specifications and circuit principle instructions
The part number "EPM7064SLC44-10N" refers to a CPLD (Complex Programmable Logic Device ) manufactured by Intel, which was previously branded as Altera before Intel acquired the company. The device is part of the MAX 7000 series and comes with a 44-pin package, specifically the PLCC (Plastic Leaded Chip Carrier) 44-pin. This chip is used for programmable logic applications, typically in embedded systems, digital signal processing, and other logic-based functions.
Key Specifications
Family: MAX 7000S Device Type: CPLD Package Type: PLCC44 (Plastic Leaded Chip Carrier) Operating Speed: 10 ns (Speed grade) Power Consumption: Low power consumption, designed for efficient, small-scale applications. Voltage: Operates at 3.3V. Pin Count: 44 pins in total.Full Pinout of EPM7064SLC44-10N
For a detailed pinout of the device, the pin functions of all 44 pins are as follows:
Pin Number Pin Name Pin Function Description 1 VCC Power supply, 3.3V. 2 GND Ground. 3 1 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 4 2 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 5 3 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 6 4 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 7 5 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 8 6 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 9 7 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 10 8 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 11 9 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 12 10 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 13 11 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 14 12 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 15 13 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 16 14 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 17 15 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 18 16 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 19 17 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 20 18 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 21 19 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 22 20 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 23 21 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 24 22 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 25 23 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 26 24 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 27 25 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 28 26 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 29 27 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 30 28 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 31 29 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 32 30 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 33 31 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 34 32 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 35 33 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 36 34 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 37 35 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 38 36 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 39 37 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 40 38 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 41 39 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 42 40 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 43 41 I/O pin. It can be configured as an input or output. Used for general-purpose logic. 44 42 I/O pin. It can be configured as an input or output. Used for general-purpose logic.Pin Functions Overview
I/O Pins: All of the pins can be used as either input or output depending on the configuration of the programmable logic. The user can configure them as either inputs, outputs, or bidirectional. GND: Pin used to provide a ground connection. VCC: Power supply pin used for the operating voltage.FAQs
What is the EPM7064SLC44-10N device used for? The EPM7064SLC44-10N is a Complex Programmable Logic Device (CPLD) used for various logic functions, including custom logic circuits, signal processing, and embedded applications. What is the pin count of the EPM7064SLC44-10N? The device comes with a 44-pin package (PLCC44). What is the operating voltage of the EPM7064SLC44-10N? The device operates at 3.3V. What is the speed grade of the EPM7064SLC44-10N? The speed grade is 10 ns, which refers to the maximum delay time of the logic elements. Can the pins be configured for different functions? Yes, the pins can be configured as inputs, outputs, or bidirectional I/O pins based on the needs of the user’s logic circuit. What is the significance of the ‘SLC’ in the part number? ‘SLC’ refers to the specific package type, in this case, a Plastic Leaded Chip Carrier (PLCC) package. What is the difference between the MAX 7000S and MAX 7000A families? The MAX 7000S family is a low-power version compared to the MAX 7000A family, which is optimized for higher speed applications. How many logic blocks does the EPM7064SLC44-10N have? The device has up to 64 macrocells, which are used to implement user logic. Is the EPM7064SLC44-10N suitable for high-speed applications? It is suitable for moderate-speed applications, with a maximum delay of 10 ns.Can the EPM7064SLC44-10N be used in FPGA -like applications?
Yes, the CPLD can be used in FPGA-like applications for custom logic designs, though FPGAs are more suitable for complex designs.What is the typical use case for the EPM7064SLC44-10N?
Common uses include embedded systems, consumer electronics, automotive systems, and any application requiring programmable logic.How is the device programmed?
The EPM7064SLC44-10N is programmed using a JTAG or similar in-system programming tool.What software is used to program the EPM7064SLC44-10N?
The device is programmed using Intel's Quartus software or other compatible tools.What is the package type of the EPM7064SLC44-10N?
The device comes in a 44-pin PLCC package.What is the power consumption of the EPM7064SLC44-10N?
The device has a low power consumption profile suitable for battery-operated or energy-efficient applications.Is the EPM7064SLC44-10N available in other packages?
The MAX 7000S series has variants in different package options like TQFP, PLCC, and others, but this specific part number is in a PLCC44 package.What is the maximum operating temperature for the EPM7064SLC44-10N?
The maximum operating temperature is typically 85°C.How does the I/O configuration work on the EPM7064SLC44-10N?
The I/O pins can be individually configured as inputs or outputs, or as bidirectional depending on the circuit’s requirements.What is the logic density of the EPM7064SLC44-10N?
It provides up to 64 macrocells for logic design, with a flexible programmable architecture.Can I use the EPM7064SLC44-10N in high-frequency applications?
The device is more suitable for moderate-frequency applications, typically below 100 MHz, with a maximum delay of 10 ns.This detailed guide covers the pin functions, specifications, and typical applications for the EPM7064SLC44-10N device.
