Allicdata Part #: | 497-2878-5-ND |
Manufacturer Part#: |
M48Z32V-35MT1E |
Price: | $ 0.00 |
Product Category: | Integrated Circuits (ICs) |
Manufacturer: | STMicroelectronics |
Short Description: | IC NVSRAM 256K PARALLEL 44SO |
More Detail: | NVSRAM (Non-Volatile SRAM) Memory IC 256Kb (32K x ... |
DataSheet: | M48Z32V-35MT1E Datasheet/PDF |
Quantity: | 1000 |
1 +: | 0.00000 |
Series: | -- |
Packaging: | Tube |
Part Status: | Obsolete |
Memory Type: | Non-Volatile |
Memory Format: | NVSRAM |
Technology: | NVSRAM (Non-Volatile SRAM) |
Memory Size: | 256Kb (32K x 8) |
Write Cycle Time - Word, Page: | 35ns |
Access Time: | 35ns |
Memory Interface: | Parallel |
Voltage - Supply: | 3 V ~ 3.6 V |
Operating Temperature: | 0°C ~ 70°C (TA) |
Mounting Type: | Surface Mount |
Package / Case: | 44-BSOP (0.337", 8.56mm Width) |
Supplier Device Package: | 44-SO |
Base Part Number: | M48Z |
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M48Z32V-35MT1E is a low voltage 4K static random access memory (SRAM) device developed by STMicroelectronics. It is used mainly as a high speed memory and it is widely used in portable electronic applications such as handheld computers, mobile phones, and other embedded systems. The device is built on a 0.35 micron process technology to provide superior performance, high speed, and low power consumption.
The M48Z32V-35MT1E is composed of 32,768 bits of SRAM organized into eight separate blocks, each block containing 4,096 bits of memory. The device has a wide voltage range and supports both 5V and 3V operation. The device is also configured to provide quick access to data and instructions, and can interface with a wide range of system components. It has asynchronous read/write operations and supports internal loopback mode, allowing testing of the device without having to connect it to an external system.
The M48Z32V-35MT1E can be used in a wide range of applications that require fast access to data and instructions. It is especially well-suited for applications such as portable audio systems, video gaming systems, CB radios, personal digital assistants, and other embedded systems. It can be used in applications that require fast access to large on-board memory. These applications include but are not limited to video playback, MP3 playback, voice recognition, and machine vision.
The device is also used in military, aerospace, and industrial instrumentation applications due to its wide voltage operating range and its high level of reliability and durability. High vibration, shock, and temperature environments are no match for this device. It is designed to operate in harsh conditions and to provide reliable performance.
The working principle of the M48Z32V-35MT1E is based on taking advantage of the latent potential of SRAM to provide fast access to stored information. By enabling the device to access different sets of instructions and data at a high speed, the device can be used to quickly retrieve stored information. The device also uses a high read/write speed to enable quick access to stored data and instructions, allowing it to be used in applications where high speed is essential.
The device does not require additional external control or timing logic. It can be used in standalone mode and can be programmed to operate in two modes: synchronous and asynchronous. In synchronous mode, the state of the device is continuously monitored and the output of the device can be modified in real-time as needed. In asynchronous mode, the device does not require a continuous refresh—rather, the output of the device can be modified depending upon the changing requirements of the system.
The M48Z32V-35MT1E is an extremely versatile device. It provides superior performance, low power consumption, and high reliability in a wide range of applications. With its wide voltage range, it can be used in many different types of portable electronic devices, embedded systems, and military, aerospace, and industrial applications. The device\'s use of latent potential of SRAM allows it to quickly access data and instructions with minimal power consumption.
The specific data is subject to PDF, and the above content is for reference
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