参数资料
| 型号: | BR24L01AFVM-WTR |
| 厂商: | Rohm Semiconductor |
| 文件页数: | 27/41页 |
| 文件大小: | 0K |
| 描述: | IC EEPROM 1KBIT 400KHZ 8MSOP |
| 标准包装: | 1 |
| 格式 - 存储器: | EEPROMs - 串行 |
| 存储器类型: | EEPROM |
| 存储容量: | 1K (128 x 8) |
| 速度: | 400kHz |
| 接口: | I²C,2 线串口 |
| 电源电压: | 1.8 V ~ 5.5 V |
| 工作温度: | -40°C ~ 85°C |
| 封装/外壳: | 8-VSSOP,8-MSOP(0.110",2.80mm 宽) |
| 供应商设备封装: | 8-MSOP |
| 包装: | 标准包装 |
| 产品目录页面: | 1378 (CN2011-ZH PDF) |
| 其它名称: | BR24L01AFVM-WDKR |
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�BR24L� □□� -W� Series,BR24S� □□□� -W� Series�
�Technical� Note�
�I� C� BUS� data� communication�
�I� C� BUS� data� communication� starts� by� start� condition� input,� and� ends� by� stop� condition� input.� Data� is� always� 8bit� long,�
�●� I� 2� C� BUS� communication�
�2�
�2�
�and� acknowledge� is� always� required� after� each� byte.�
�I� 2� C� BUS� carries� out� data� transmission� with� plural� devices� connected� by� 2� communication� lines� of� serial� data� (SDA)� and�
�serial� clock� (SCL).�
�Among� devices,� there� are� “master”� that� generates� clock� and� control� communication� start� and� end,� and� “slave”� that� is�
�controlled� by� addresses� peculiar� to� devices.�
�EEPROM� becomes� “slave”.� And� the� device� that� outputs� data� to� bus� during� data� communication� is� called� “transmitter”,�
�and� the� device� that� receives� data� is� called� “receiver”.�
�SDA�
�SCL�
�1-7�
�8�
�9�
�1-7�
�8�
�9�
�1-7�
�8�
�9�
�S�
�P�
�START�
�ADDRESS�
�R/W�
�ACK�
�DATA�
�ACK�
�DATA�
�ACK�
�STOP�
�condition�
�Fig.32� Data� transfer� timing�
�condition�
�○� Start� condition� (start� bit� recognition)�
�?� Before� executing� each� command,� start� condition� (start� bit)� where� SDA� goes� from� 'HIGH'� down� to� 'LOW'� when� SCL� is� 'HIGH'�
�is� necessary.�
�?� This� IC� always� detects� whether� SDA� and� SCL� are� in� start� condition� (start� bit)� or� not,� therefore,� unless� this� condition� is�
�satisfied,� any� command� is� executed.�
�○� Stop� condition� (stop� bit� recognition)�
�?� Each� command� can� be� ended� by� SDA� rising� from� 'LOW'� to� 'HIGH'� when� stop� condition� (stop� bit),� namely,� SCL� is� 'HIGH'�
�○� Acknowledge� (ACK)� signal�
�?� This� acknowledge� (ACK)� signal� is� a� software� rule� to� show� whether� data� transfer� has� been� made� normally� or� not.� In� master�
�and� slave,� the� device� (� μ� -COM� at� slave� address� input� of� write� command,� read� command,� and� this� IC� at� data� output� of� read�
�command)� at� the� transmitter� (sending)� side� releases� the� bus� after� output� of� 8bit� data.�
�?� The� device� (this� IC� at� slave� address� input� of� write� command,� read� command,� and� μ� -COM� at� data� output� of� read�
�command)� at� the� receiver� (receiving)� side� sets� SDA� 'LOW'� during� 9� clock� cycles,� and� outputs� acknowledge� signal� (ACK�
�signal)� showing� that� it� has� received� the� 8bit� data.�
�?� This� IC,� after� recognizing� start� condition� and� slave� address� (8bit),� outputs� acknowledge� signal� (ACK� signal)� 'LOW'.�
�?� Each� write� action� outputs� acknowledge� signal)� (ACK� signal)� 'LOW',� at� receiving� 8bit� data� (word� address� and� write� data).�
�?� Each� read� action� outputs� 8bit� data� (read� data),� and� detects� acknowledge� signal� (ACK� signal)� 'LOW'.�
�?� When� acknowledge� signal� (ACK� signal)� is� detected,� and� stop� condition� is� not� sent� from� the� master� (� μ� -COM)� side,� this� IC�
�continues� data� output.� When� acknowledge� signal� (ACK� signal)� is� not� detected,� this� IC� stops� data� transfer,� and� recognizes�
�stop� condition� (stop� bit),� and� ends� read� action.� And� this� IC� gets� in� standby� status.�
�○� Device� addressing�
�?� Output� slave� address� after� start� condition� from� master.�
�?� The� significant� 4� bits� of� slave� address� are� used� for� recognizing� a� device� type.� The� device� code� of� this� IC� is� fixed� to� '1010'.�
�?� Next� slave� addresses� (A2� A1� A0� ---� device� address)� are� for� selecting� devices,� and� plural� ones� can� be� used� on� a� same� bus�
�according� to� the� number� of� device� addresses.�
�?� The� most� insignificant� bit� (R/W� ---� READ/WRITE)� of� slave� address� is� used� for� designating� write� or� read� action,� and� is� as�
�shown� below.�
�Setting� R/W� to� 0� ---� write� (setting� 0� to� word� address� setting� of� random� read)�
�Setting� R/W� to� 1� ---� read�
�A0�
�1�
�8�
�Vcc�
�Type�
�BR24S08-W�
�BR24S16-W�
�1� 0� 1�
�1� 0� 1�
�Slave� address�
�0� A2� P1� P0�
�0� P2� P1� P0�
�―�
�R/W�
�―�
�R/W�
�Maximum� number� of�
�connected� buses�
�2�
�1�
�A1�
�A2�
�2�
�3�
�BR24S08-W�
�BR24S16-W�
�BR24S32-W�
�BR24S64-W�
�BR24S128-W�
�7�
�6�
�WP�
�SCL�
�BR24S32-W,� BR24S64-W�
�BR24S128-W,� BR24S256-W�
�1� 0� 1�
�0�
�A2� A1� A0�
�―�
�R/W�
�8�
�GND�
�4�
�BR24S256-W�
�5�
�SDA�
�P0� ~� P2� are� page� select� bits.�
�Note)� Up� to� 2� units� of� BR24S08-W,� up� to� 1� units� of� BR24S16-W,� and� up� to� 8� units� of� BR24S32/64/128/256-W� can� be� connected.�
�Device� address� is� set� by� 'H'� and� 'L'� of� each� pin� of� A0,� A1,� and� A2.�
�www.rohm.com�
�?� 2009� ROHM� Co.,� Ltd.� All� rights� reserved.�
�27/40�
�2009.09� -� Rev.D�
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相关代理商/技术参数 |
参数描述 |
|---|---|
| BR24L01AFVT-W | 制造商:ROHM Semiconductor 功能描述:Memory,EEPROM,1kb(X8),I2C BUS,TSSOP8 |
| BR24L01AFVT-WE2 | 功能描述:电可擦除可编程只读存储器 I2C BUS 1Kbit 1.8-5.5V Supply RoHS:否 制造商:Atmel 存储容量:2 Kbit 组织:256 B x 8 数据保留:100 yr 最大时钟频率:1000 KHz 最大工作电流:6 uA 工作电源电压:1.7 V to 5.5 V 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 |
| BR24L01AFV-W | 制造商:ROHM Semiconductor 功能描述:EEPROM,1kb,128Wx8b,I2C Bus,SSOP8 |
| BR24L01AFV-WE2 | 功能描述:电可擦除可编程只读存储器 2 WIRE SERIAL 1K (I2 C BUS TYPE) RoHS:否 制造商:Atmel 存储容量:2 Kbit 组织:256 B x 8 数据保留:100 yr 最大时钟频率:1000 KHz 最大工作电流:6 uA 工作电源电压:1.7 V to 5.5 V 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-8 |
| BR24L01AF-W | 制造商:ROHM Semiconductor 功能描述:IC,Memory,EEPROM,Serial SOP8 128x8 SERI |
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