位置:首页 > IC中文资料第680页 > X46
| 型号 | 功能描述 | 生产厂家&企业 | LOGO | 操作 |
|---|---|---|---|---|
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS |   | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
Scalable Fixed-Form Switches for Advanced Edge Access and Aggregation The X460-G2 series is based on Extreme Networks ExtremeXOS®, a highly-resilient OS that provides continuous uptime, manageability and operational efficiency. Each switch offers the same high-performance, non-blocking hardware technology. The X460-G2 series switches provide high-performance routing | EXTREMENETWORKS | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
64K, 8K x 8 Bit CPU Supervisor with 64K EEPROM FEATURES • Selectable watchdog timer • Low VCC detection and reset assertion —Four standard reset threshold voltages —Adjust low VCC reset threshold voltage using special programming sequence —Reset signal valid to VCC = 1V • Low power CMOS — | RENESAS 瑞萨 | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | | ||
Premium Stackable Switching Platform for Network Edge Deployments Integrated Application Hosting Select X465 Series models support Extreme's Integrated Application Hosting* which leverages the switch's hardware and software design to run onboard applications without impacting switch performance. X465 models equipped with a quad-core processor can run a Guest VM | EXTREMENETWORKS | |
| 替换型号 | 功能描述 | 生产厂家&企业 | LOGO | 操作 |
|---|---|---|---|---|
10W - 33KV SINGLEOUTPUT DC / DC INDUSTRIAL | POWERBOXPowerbox manufactures | POWERBOX | | |
CMOS HEX BUFFERS/CONVERTERS | TI 德州仪器 | TI | | |
Hex Buffers (Non-Inverting) | FairchildFairchild Semiconductor 仙童半导体飞兆/仙童半导体公司 | Fairchild | | |
Hex Inverting Buffer . Hex Non-Inverting Buffer | FairchildFairchild Semiconductor 仙童半导体飞兆/仙童半导体公司 | Fairchild | | |
CMOS HEX BUFFERS/CONVERTERS | TI 德州仪器 | TI | | |
CMOS Hex Buffer/Converters | HARRIS | HARRIS | | |
Hex Inverting,Non-Inverting Buffer | NSCNational Semiconductor (TI) 美国国家半导体美国国家半导体公司 | NSC | | |
Hex Inverting Buffer Hex Non-Inverting Buffer | FairchildFairchild Semiconductor 仙童半导体飞兆/仙童半导体公司 | Fairchild | | |
Hex Inverting Buffer . Hex Non-Inverting Buffer | FairchildFairchild Semiconductor 仙童半导体飞兆/仙童半导体公司 | Fairchild | | |
CMOS HEX BUFFERS/CONVERTERS | TI 德州仪器 | TI | | |
CMOS HEX BUFFERS/CONVERTERS | TI 德州仪器 | TI | | |
CMOS Hex Buffer/Converters | HARRIS | HARRIS | | |
CMOS Hex Buffer/Converters | HARRIS | HARRIS | | |
CMOS HEX BUFFERS/CONVERTERS | TI 德州仪器 | TI | | |
Hex Buffer | HitachiHitachi Semiconductor 日立日立公司 | Hitachi | | |
HEX non-inverting buffers | Philips 飞利浦 | Philips | | |
HEX non-inverting buffers | Philips 飞利浦 | Philips | | |
Hex non-inverting buffers | ETC | ETC | | |
Hex Buffer | ONSEMI 安森美半导体 | ONSEMI | | |
Hex Buffer | ONSEMI 安森美半导体 | ONSEMI | | |
C-2MOS DIGITAL INTEGRATED CIRCUIT SILICON MONOLITHIC | ETC1List of Unclassifed Manufacturers etc未分类制造商未分类制造商 | ETC1 | | |
HEX BUFFER/CONVERTER (INVERTING TYPE, NON-INVERTING TYPE) | TOSHIBA 东芝 | TOSHIBA | | |
Hex Buffer/Converter | TOSHIBA 东芝 | TOSHIBA | |
X46产品属性
- 类型
描述
- 型号
X46
- 制造商
APEX TOOL GROUP
- 功能描述
6 FT X 5/8 IN. WOOD RULE RED END WITH 6 IN. SLIDE RULE EXTENSION
- 制造商
APEX TOOL GROUP
- 功能描述
6 FT X 5/8 IN. WOOD RULE RED END WITH 6 IN. SLIDE RULE EXTENSION, Lufkin
| IC供应商 | 芯片型号 | 品牌 | 批号 | 封装 | 库存 | 备注 | 价格 |
|---|---|---|---|---|---|---|---|
XKB CONNECTIVITY(中国星坤) |
24+ |
con |
1250 |
现货常备产品原装可到京北通宇商城查价格 |
|||
XKB CONNECTIVITY(中国星坤) |
24+ |
con |
2500 |
优势库存,原装正品 |
|||
XKB CONNECTIVITY(中国星坤) |
50 |
||||||
XKB CONNECTIVITY(中国星坤) |
21+ |
标准封装 |
725 |
保证原装正品,需要请联系张小姐13544103396 |
|||
XKB CONNECTIVITY(中国星坤) |
21+ |
N/A |
2500 |
进口原装,优势现货 |
X46规格书下载地址
X46参数引脚图相关
- 半导体模块
- 半导体材料
- 板对板连接器
- 白光LED
- 白炽灯
- 按钮开关
- 安全继电器
- 安规电容
- 安防系统
- 安防监控系统
- 安防监控
- 安宝路
- zw10
- zigbee芯片
- zigbee模块
- z120
- xtr105
- XR2202CP
- XR2201CP
- XR1489AN
- XR1488P
- XR1488N
- XR1458CP
- XR084CP
- XR082CP
- xl4001
- XC-1312A
- XC1312
- XAA109
- XAA108
- XAA107
- XAA106
- XAA105
- XAA104
- x86架构
- x606
- X5001V8
- X5001S8
- X5001PI
- X5001P
- X5001
- X4-X8
- X4C105
- X4918
- X474HB
- X464UNV
- X464UNS
- X464UN
- X4645V8
- X4645S8
- X4645
- X4643V8
- X4643S8
- X4643
- X46402
- X462S
- X460458400
- X460409300
- X460406901
- X460405000
- X45620
- X440762120
- X440759820
- X440756330
- X440755400
- X440751890
- X440751880
- X440672210
- X440672200
- X440223110
- X440200650
- X440193050
- X440160660
- X440150790
- X440150640
- X440140050
- X440079120
- X440078054
- X440078051
- X440073860
- X440072920
- X4325V8
- X4325S8
- X4325
- X4323V8
- X4323S8
- X4323
- X42-W
- X4285V8
- X4285S8
- X4285I
- X4285G
- X4285F
- X4285AP
- X4285AN
- X4285AM
- X4285AL
- X4285
- X4283V8
- X4283S8
X46数据表相关新闻
X4-Z11-E-A
X4-Z11-E-A
2023-5-11X3C17A1-03WS
进口代理
2022-7-19X5043PZ-4.5A
进口代理
2022-6-22X5045P 全新原装进口,现货热卖
X5045P 全新原装进口,现货热卖
2020-10-12X3100V28-3或4芯锂离子电池保护和监控点器集成电路
X3100是一个使用电池的保护和监控IC包组成的4个系列的锂离子电池细胞。 X3101是设计工作在3个电池的应用。这两款器件提供内部的过充电,过放电,和过电流保护电路,内部一个内部稳压器,EEPROM存储器,控制外部FET器件的内部驱动电路电池充电,放电,电池电压平衡。过充电,过放电,过电流阈值居住在内部EEPROM存储器寄存器通过使用一个3MHz的软件独立选择SPI串行接口。检测和时间延迟可以也可单独不同的使用外部电容器。使用了一个内部模拟多路复用器,X3100或X3101允许电池参数,如电池电压和电流(使用一个检测电阻器)被监视外部由一个单独的微控制器与A / D转换。此微控制器上的软件实
2012-12-29X40010-与集成的CPU监控双电压监视器
X40010/11/14/15结合上电复位控制,看门狗定时器,电源电压监控,二次电压的监督,在一个封装中。这组合降低了系统成本,减少电路板空间要求,增加了可靠性。施加电压至VCC电源激活上电复位电路持有复位/复位活跃的时期时间。这使得电源和系统振荡器稳定之前,处理器可以执行的代码。低电压检测电路,保护用户的系统从低电压条件下,重置系统VCC降到最低VTRIP1点。复位/复位有效,直到适当的操作VCC返回水平和稳定。第二个电压监控电路跟踪不受管制的供应提供了一个电源是否失败警告或显示器不同的电源电压。三种常见的低电压组合,然而,Xicor公司的独特的电路允许阈值或者电压监视器进行重新编程以满足特
2012-11-16
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