5M160ZM68C5N
Part Number: 5M160ZM68C5N
Manufacturer: Intel
Description: IC CPLD 128MC 7.5NS 68MBGA
Shipped from: Shenzhen/HK Warehouse
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Technical Specifications of 5M160ZM68C5N
| Datasheet |  5M160ZM68C5N datasheet |
|---|---|
| Category | Integrated Circuits (ICs) |
| Family | Embedded – CPLDs (Complex Programmable Logic Devices) |
| Manufacturer | Altera |
| Series | MAX? V |
| Packaging | Tray |
| Part Status | Active |
| Programmable Type | In System Programmable |
| Delay Time tpd(1) Max | 7.5ns |
| Voltage Supply – Internal | 1.71 V ~ 1.89 V |
| Number of Logic Elements/Blocks | 160 |
| Number of Macrocells | 128 |
| Number of Gates | – |
| Number of I/O | 52 |
| Operating Temperature | 0°C ~ 85°C (TJ) |
| Mounting Type | Surface Mount |
| Package / Case | 68-TFBGA |
| Supplier Device Package | 68-MBGA (5×5) |
Introduction
The MAX® V family of low-cost and low-power Complex Programmable Logic Devices (CPLDs) has a great mix of density, I/Os, and power efficiency. The 5M160ZM68C5N stands out from the rest because of its great features and performance. In this detailed guide, we’ll look at the technical details, uses, and perks of the 5M160ZM68C5N, as well as how it can change the way electronics are made.
5M160ZM68C5N – An Overview
The MAX® V line of programmable logic devices includes the 5M160ZM68C5N, which is a high-performance CPLD (Complex Programmable Logic Device). It has a lot of features and functions that make it a good choice for many different digital electronic designs. Let’s look at its most important features and benefits:
5M160ZM68C5N Key Specifications
- Logic Element Density: There are 160 logic elements (LEs) in the 5M160ZM68C5N. A CPLD is made up of logic parts, which include lookup tables, flip-flops, and programmable interconnects. This device has 160 LEs, which are a lot of digital logic tools for making complicated designs.
- Number of I/O Pins: The 5M160ZM68C5N has up to 68 I/O (Input/Output) pins, which make it easy for the CPLD and external parts to talk to each other. These I/O pins make it possible to connect tools and other digital devices to the computer.’
Low Power Consumption Feature
One of the best things about the 5M160ZM68C5N is that it uses a very small amount of power. Due to the rise of battery-powered devices, Internet of Things (IoT) apps, and the need for more energy-efficient solutions, power efficiency has become an important part of modern technology design. The 5M160ZM68C5N is great for apps that need to save energy because it uses so little power.
The 5M160ZM68C5N uses up to 50% less total power than other CPLDs, so it can help extend the life of batteries, reduce the amount of heat a system gives off, and lower operating costs. This is a very useful tool for portable devices, wearables, sensor networks, and other applications that are sensitive to power usage.
On-Chip Flash Storage and Memory Functionality
The 5M160ZM68C5N has on-chip flash storage, which works as a memory that doesn’t need to be turned on and off. This means that configuration data and important factors can be saved in the CPLD and will still be there even if the power goes out. So, the CPLD can quickly start working again after a power cycle without needing to be reprogrammed from the outside.
This function makes it easier to start up and set up the system, which makes the whole thing more reliable and easy to use. Also, the on-chip flash storage gets rid of the need for external configuration memory components. This saves room on the board and cuts down on BOM costs.
Internal Oscillator
The 5M160ZM68C5N has a built-in oscillator that makes it possible for the device to make accurate clock messages without needing extra clock parts. Clock messages are very important for making sure that all the parts of a digital system work at the same time.
The internal oscillator makes sure that the CPLD works with accurate and stable clock signals, which improves the speed and reliability of the system as a whole. Also, it makes the planning process easier by getting rid of the need for an external clock source, reducing the number of components, and making it easier to lay out the PCB.
Understanding the MAX V Family of CPLDs
What are CPLDs?
Complex customizable Logic Devices (CPLDs) are made of semiconductors and offer customizable logic functions in a small, inexpensive package. They have a lot of logic gates, flip-flops, and other digital parts that can be put together in different ways to make complicated digital circuits.
Introducing the MAX V Family
The MAX V family of CPLDs is an advanced set of devices that do well in terms of density, I/Os, and low power use. From 40 to 2,210 logic elements (LEs) and up to 271 input/outputs (I/Os), the 5M160ZM68C5N model in particular has a lot of flexibility and ability in terms of logic.
Features of 5M160ZM68C5N
● Enhanced Density and I/Os
The 5M160ZM68C5N is a standout device in the MAX V family. It has more I/Os per square inch than other CPLDs in its class and has a higher density. With 32 to 1,700 equivalent macrocells and up to 271 I/Os, this model is good for a wide range of applications that need a lot of logic and I/O growth.
● On-Chip Flash Storage and Memory Functionality
The 5M160ZM68C5N can be readily programmed and reprogrammed to suit a variety of designs and applications thanks to the incorporation of on-chip flash storage and memory capability. Without the use of additional memory components, this flexibility enables smooth configuration updates and alterations.
● Internal Oscillator
Without the need for an external clock source, the internal oscillator is a useful feature that generates clock signals. This streamlined system design lowers the number of components and raises the design’s overall reliability.
Functional Description
MAX V devices use a two-dimensional row-and-column design for bespoke logic. LABs communicate via row and column interconnects. Logic array LABs have 10 LEs. A small logic element (LE) efficiently implements user logic functions. Device rows and columns contain LABs. LABs have quick granular timing delays with MultiTrack.
Fast routing between LEs reduces logic level time delay compared to globally routed connection topologies. After the LAB rows and columns around the MAX V device, the I/O elements (IOEs) supply the I/O pins. Each IOE has an improved bidirectional I/O buffer. Schmitt trigger inputs, 33-MHz, 32-bit PCITM, and LVTTL are supported by I/O pins. MAX V clocks are global. Four global clock lines drive throughout the device, providing clocks for all resources. Control signals like clear, preset, and output enable can use global clock lines.
Applications of 5M160ZM68C5N
● I/O Expansion
Applications requiring more I/O ports suit the 5M160ZM68C5N. It can increase microcontroller and FPGA I/O to link many peripheral devices and sensors.
● Bus and Protocol Bridging
The 5M160ZM68C5N is a superb option for building bus and protocol bridging solutions due to its high-density logic and I/Os. In order to ensure flawless data interchange between various subsystems, it can serve as an interface between several communication protocols.
● Power Monitoring and Control
In order to create power monitoring and control circuits, the MAX V CPLD family, which includes the 5M160ZM68C5N, is a crucial part of power-sensitive applications. Its low-power functioning adds to designs that are energy-efficient.
● FPGA Configuration
The 5M160ZM68C5N can be employed for FPGA configuration tasks, streamlining the process of loading FPGA designs into the target device. This feature enhances the versatility of the MAX V CPLD family and its integration with other programmable logic devices.
Conclusion
In conclusion, the MAX® V family of CPLDs, spearheaded by the impressive 5M160ZM68C5N, represents a remarkable leap in programmable logic devices. Boasting exceptional density, I/O capabilities, and low power consumption, this CPLD offers designers an unparalleled and flexible solution across a diverse range of applications. By adhering to the guidelines outlined in this comprehensive guide, you can fully unleash the potential of the 5M160ZM68C5N, crafting cutting-edge, low-power designs that excel in both performance and reliability.
Don’t miss the opportunity to tap into the extraordinary possibilities offered by this groundbreaking technology. You can acquire the 5M160ZM68C5N from ICRFQ, a leading Chinese distributor of electronic components, providing it at a competitive price. Take decisive action now and empower your company to reach new heights with the aid of this innovative technology and a reputable provider. Seize the moment and unlock the true potential of your designs with the 5M160ZM68C5N from ICRFQ.
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I am Kevin Chen, I graduated from University of Electronic Science and Technology of China in 2000. I am an electrical and electronic engineer with 23 years of experience, in charge of writting content for ICRFQ. I am willing use my experiences to create reliable and necessary electronic information to help our readers. We welcome readers to engage with us on various topics related to electronics such as IC chips, capacitors, resistors, inductors, circuit breakers, diode, transistor, module, relay, opticalcoupler, connectors, PCBs, etc. Please feel free to share your thoughts and questions on these subjects with us. We look forward to hearing from you!
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