RAMTRON串行SPI接口 FM25V05
地区城市:广东省 -深圳市 更新时间:2012-4-20 17:57:27
联 系 人: 金 有效期限:2012-4-27 16:45:31
公司名称:深圳市华辰信科电子有限公司
电子信箱:daisy@cnstarit.com 联系电话:0755-25159486
| 是否提供加工定制 | 否 | 类型 | 存储器 |
| 品牌 | RAMTRON | 型号 | FM25V05 |
| 封装 | SOIC8 | 批号 | new |
串行
I2C接口是一个被广泛使用的通过串行时钟(SCL)和串行数据线(SDA)实现主从控制的协议。通过器件的片选引脚A0-A2可以实现多个存储器驻留在I2C总线上。I2C总线协议也可设计用来支持多点应用。
• 结构容量为64K x 8位
• 读/写次数达到100万亿(1014)次
• 掉电数据保存10年
• 写数据无延迟
• 采用先进的高可靠性铁电制造工艺
高速串行外设接口- SPI
• 总线频率可达40MHz
• 硬件上可直接替换串行Flash
• SPI模式0&3(CPOL,CPHA=0,0&1,1)
写保护方案
• 硬件保护
• 软件保护
器件ID和序列号
• 器件ID能读出制造商、产品密度和版本信息
• 唯一的序列号(FM25VN10)
低电压,低功率
• 工作电压:2.0V~3.6V
• 待机电流(典型值):90µA
• 睡眠模式电流(典型值):5 µA
工业标准
• 工业级温度:-40℃~+85℃
• 8脚环保/RoHS SOIC封装
FM25V05-G - Device ID,2.0~3.6V - 8脚 环保/RoHS SOIC封装
FM25VN05-G - Device ID,S/N,2.0~3.6V - 8脚 环保/RoHS SOIC封装
FM25VN05-GTR - Device ID, S/N (8脚 环保/RoHS SOIC, 卷带包装)
| 型号 | 容量 | 最大工作电流 | 最大读写频率 | 封装 | 电压 | AEC-Q100认证 | 唯一S/N |
| FM25H20 | 2Mb | 10mA | 40MHz | TDFN8, EIAJ SOIC8 | 2.7-3.6V | ||
| FM25V10 | 1Mb | 3.0mA | 40MHz | SOIC8 | 2.0-3.6V | 64-bit | |
| FM25V05 | 512Kb | 3.0mA | 40MHz | SOIC8 | 2.0-3.6V | 64-bit | |
| FM25V02 | 256Kb | 2.5mA | 40MHz | SOIC8 or DFN8 | 2.0-3.6V | Grade 3 | 64-bit |
| FM25W256 | 256Kb | 2mA | 20MHz | 8-Pin SOIC | 2.7-5.5V | ||
| FM25V01 | 128Kb | 2.5mA | 40MHz | 8-Pin SOIC | 2.0-3.6V | Grade 3 | 64-bit |
| FM25640C | 64Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25640B | 64Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25CL64B | 64Kb | 3.0mA | 20MHz | SOIC8 或 DFN8 | 2.7-3.6V | ||
| FM25CL64B-GA | 64Kb | 3mA | 16MHz | 8-Pin SOIC | 3.0-3.6V | Grade 1 | |
| FM25640B-GA | 64Kb | 2.7mA | 4MHz | 8-pin SOIC | 4.5-5.5V | Grade 1 | |
| FM25C160C | 16Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25C160B | 16Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25C160B-GA | 16Kb | 3mA | 15MHz | 8-Pin SOIC | 4.5-5.5V | Grade 1 | |
| FM25L16B | 16Kb | 3.0mA | 20MHz | SOIC8 或 DFN8 | 2.7-3.6V | ||
| FM25L04B | 4Kb | 3.0mA | 20MHz | SOIC8 或 DFN8 | 2.7-3.6V | ||
| FM25L04B-GA | 4Kb | 2mA | 10MHz | 8-Pin SOIC | 3.0-3.6V | Grade 1 | |
| FM25C04C | 4Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25040B | 4Kb | 4.0mA | 20MHz | 8-Pin SOIC | 4.5-5.5V | ||
| FM25040B-GA | 4Kb | 3mA | 14MHz | 8-Pin SOIC | 4.5-5.5V | Grade 1 | |
| FM25L512 (NRND) | 512Kb | 12mA | 20MHz | TDFN8 | 3.0-3.6V | ||
| FM25L256B (NRND) | 256Kb | 10mA | 20MHz | SOIC8 DFN8 | 2.7-3.6V | ||
| FM25256B (NRND) | 256Kb | 15mA | 20MHz | SOIC8 | 4.5-5.5V | ||
| FM25CL64 (NRND) | 64Kb | 10mA | 20MHz | SOIC8 DFN8 | 2.7-3.6V | Grade 3 | |
| FM25CL64-GA (EOL) | 64Kb | 7mA | 16MHz | SOIC8 | 3.0-3.6V | Grade 1 | |
| FM25640 (NRND) | 64Kb | 3.0mA | 5MHz | SOIC8 | 4.5-5.5V | Grade 3 | |
| FM25640-GA (EOL) | 64Kb | 2.7mA | 4MHz | SOIC8 | 4.5-5.5V | Grade 1 | |
| FM25L16 (NRND) | 16Kb | 5.5mA | 18MHz | SOIC8 DFN8 | 2.7-3.6V | Grade 3 | |
| FM25L16-GA (EOL) | 16Kb | 5.5mA | 15MHz | 8-Pin SOIC | 3.0-3.6V | Grade 1 | |
| FM25C160 (NRND) | 16Kb | 8mA | 20MHz | SOIC8 | 4.5-5.5V | Grade 3 | |
| FM25C160-GA (EOL) | 16k | 6.5mA | 15MHz | SOIC8 | 4.5-5.5V | Grade 1 | |
| FM25L04 (NRND) | 4Kb | 6mA | 14MHz | SOIC8 DFN8 | 2.7-3.6V | ||
| FM25040A-GA (EOL) | 4Kb | 6mA | 14MHz | SOIC8 | 4.5-5.5V | Grade 1 | |
| FM25040A (NRND) | 4Kb | 8mA | 20MHz | SOIC8 | 4.5-5.5V | ||
| FM25L04-GA (EOL) | 4Kb | 2.2mA | 10MHz | SOIC8 | 3.0-3.6V | Grade 1 |
SPI接口常见问题解答
Q: What are the key advantages over EEPROM and Flash?
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A: 1)Speed.The “RAM” part of the F-RAM name tells us that it is a RAM, not a ROM. Of course, EEPROM and Flash are not truly ROMs but writing to them can be very slow. An F-RAM’s write cycles are completed immediately whereas an EEPROM/flash needs 5 to 10 ms. | |
Q: Why can’t I get SPI writes to work?
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A: You must issue a WREN opcode before the WRITE opcode. The WREN opcode requires the /CS pin to go low, clock-in the opcode (06h), then /CS must return high. The WRITE opcode then follows. The /CS pin goes low, clock-in the opcode (02h), clock-in the address (1 or 2 bytes), clock-in the data (1 or many bytes), then /CS must return high. | |
Q: Why use I2C over SPI, or vice versa?
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A: Two-wire (I2C) is the most common and many micros implement a two-wire dedicated port. SPI operates at much higher clock rates, up to 20MHz. For simplicity and the use of fewer I/O micro pins, two-wire is generally used.
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