The MCP795W22 SPI RTCC is highly integrated with memory and advanced features normally found in higher priced devices. By starting with a basic real-time clock, digital trimming was added for higher accuracy, a battery switchover for backup power, a timestamp to log power failures and three types of memory, which includes SRAM, EEPROM and a unique ID in a locked section of EEPROM. This ID is preprogrammed with a 64-bit MAC Address, but it can also be ordered blank for the end user to program. By adding a watchdog timer and two programmable event detect inputs, lower power and more system robustness can be achieved by performaing these functions in the RTCC and allowing the MCU to sleep for longer periods of time.
Full Featured RTCC targets smart energy, communications and home appliance applications.Low Power Operation
VCC Min = 1.8V
Icc
Low Backup Power
VBAT Min = 1.3V
Ibat
Typical Timekeeping & SRAM Retention Current
Automatic Battery Switchover with Timestamp
VCC to VBAT (VCC Lost)
VBAT to VCC (VCC Restored)
Dual configurable alarms with a 0.01 sec count on one alarm
IRQ (VCC or VBAT)
WDO (VCC)
Clock Out frequencies: 32.768, 8.192 & 4.096 KHz and 1 Hz
Digital Trimming Range from -255 to + 255 ppm in 1 ppm steps
Adjusts up to 22 seconds/day
Watchdog Timer - Dual Retriggers
SPI Bus or EVHS digital input
Dual Configurable Event Detects
High speed with programmable pulse count (EVHS)
Low speed with programmable debounce delay (EVLS)
EEPROM has 8 Bytes/Page with Block Sector write protection
Protect: None, 1/4, 1/2 or all of array
Factory standard MAC address programming or custom ID available
MCP795W22 封装图
MCP795W22 封装图
MCP795W22 封装图
MCP795W22 封装图
MCP795W22 封装图
MCP795W22 封装图
型号 | 制造商 | 描述 | 购买 |
---|---|---|---|
MCP795W22T-I/ST | Amphenol Aerospace | TV43C23#2020#16PINRECP | 立即购买 |
MCP795W22T-I/SL | Amphenol | CONNHSGPLUG32POSINLINESKT | 立即购买 |
MCP795W22-I/ST | Molex | TERMBLOCKHDR2POSVERT7.62MM | 立即购买 |
MCP795W22-I/SL | TE | TERM BLOCK HDR 2POS VERT 5MM | 立即购买 |
采用MCP2030无线激活的低功耗系统设计 首先阐明电源受限嵌入式系统的定位休眠激活方案的基本工作原理;然后介绍MCP2030的三方向磁场检测接收、低功耗
利用Microchip的MCP37Dxx系列流水线型模数转换器,抽取和数字下变频等数字处理功能,从而降低系统设计的成本和复杂度。MCP37Dxx系列采用了小型8x8 BGA封装,内部包含所有外部旁路电容,简化了电路板设计。从外MCP37Dxx的功耗是市...
Microchip的MCP372xx系列流水线型模数转换器内部200 Msps模数转换器可通过内部多路复用器分为最多8个通道,每个通道的采样率为25 Msps,全速运行时每通道的功耗仅为60+ mW。
相较于内含MCU的混合式半数位电源控制的LEDDriver,MCP1633在价格上相对低廉许多,而使用上也和DEPA系列的MCP19xxxLowsideMOSFETdriver也非常类似,可以
相较于内含MCU的混合式半数位电源控制的LEDDriver,MCP1633在价格上相对低廉许多,而使用上也和DEPA系列的MCP19xxxLowsideMOSFETdriver也非常类似,可以
相较于内含MCU的混合式半数位电源控制的LEDDriver,MCP1633在价格上相对低廉许多,而使用上也和DEPA系列的MCP19xxxLowsideMOSFETdriver也非常类似,可以
相较于内含MCU的混合式半数位电源控制的LEDDriver,MCP1633在价格上相对低廉许多,而使用上也和DEPA系列的MCP19xxxLowsideMOSFETdriver也非常类似,可以
相较于内含MCU的混合式半数位电源控制的LEDDriver,MCP1633在价格上相对低廉许多,而使用上也和DEPA系列的MCP19xxxLowsideMOSFETdriver也非常类似,可以
MCH4009 | MD1811 | MIC3808 | MIC2182 |
MOCD223M | MC100EPT23 | MIC9131 | MCP4017 |
MIC4452 | MOC3073M | MCP9844 | MC74AC541 |
MC14555B | MIC2104 | MCP6546 | MC100LVEL16 |
MBD330DW | MC74LVX157 | MIC5015 | MCP6549 |