CDIP Supervisory Circuits and Battery Monitor Chips
from Shenzhen Shengyu Electronics Technology Limited
IC VOLT MONITOR PRECISION 8-CDIP [See More]
- Type: DIP; CDIP; 8-CERDIP
- Output Options: Open Drain
- Number of Supplies: 1; 1
- Threshold: 4.37 to 4.62
from DigiKey
IC SUPERVISOR 1 CHANNEL 16CDIP [See More]
- Type: CDIP; 16-CDIP (0.300", 7.62mm)
- Pins: 16
- Output Options: Active Low; Active High; Push-Pull, Push-Pull
- Threshold: 4.4
from Acme Chip Technology Co., Limited
IC SUPERVISOR 1 CHANNEL 16CDIP [See More]
- Type: CDIP; 16-CDIP (0.300, 7.62mm)
- Output Options: Push-Pull, Push-Pull
- Number of Supplies: 1; 1
- Threshold: 4.4
from Shenzhen Shengyu Electronics Technology Limited
IC SUPERVISOR 1 CHANNEL 16CERDIP [See More]
- Type: DIP; CDIP; Tube
- Threshold: 4.65
- Number of Supplies: 1; 1
- Operating Temperature: -550 to 850
from DigiKey
IC SUPERVISOR 1 CHANNEL 8CDIP [See More]
- Type: CDIP; 8-CDIP (0.300", 7.62mm)
- Pins: 8
- Output Options: Active Low; Push-Pull, Totem Pole
- Threshold: 4.65
from Acme Chip Technology Co., Limited
IC SUPERVISOR 1 CHANNEL 8CDIP [See More]
- Type: CDIP; 8-CDIP (0.300, 7.62mm)
- Output Options: Push-Pull, Totem Pole
- Number of Supplies: 1; 1
- Threshold: 4.65
from Shenzhen Shengyu Electronics Technology Limited
IC MPU SUPERVISOR CIRCUIT 16-DIP [See More]
- Type: DIP; CDIP; 16-CERDIP
- Threshold: 4.65
- Number of Supplies: 1; 1
- Operating Temperature: -550 to 1250
from DigiKey
IC SUPERVISOR 1 CHANNEL 8CERDIP [See More]
- Type: CDIP; 8-CDIP (0.300", 7.62mm)
- Pins: 8
- Output Options: Active Low; Push-Pull, Totem Pole
- Threshold: 4.65
from Acme Chip Technology Co., Limited
IC SUPERVISOR 1 CHANNEL 16CDIP [See More]
- Type: CDIP; 16-CDIP (0.300, 7.62mm)
- Output Options: Open Drain; Open Drain, Push-Pull
- Number of Supplies: 1; 1
- Threshold: 4.65
from Shenzhen Shengyu Electronics Technology Limited
IC SUPERVISOR 1 CHANNEL 8CERDIP [See More]
- Type: DIP; CDIP; Bulk,Tube
- Threshold: 4.65
- Number of Supplies: 1; 1
- Operating Temperature: -550 to 1250
from DigiKey
IC SUPERVISOR 1 CHANNEL 16CDIP [See More]
- Type: CDIP; 16-CDIP (0.300", 7.62mm)
- Pins: 16
- Output Options: Open Drain; Active Low; Active High
- Threshold: 4.65
from Acme Chip Technology Co., Limited
Integrated Circuits (ICs) - PMIC - Supervisors [See More]
- Type: CDIP; 16-CDIP (0.300\", 7.62mm)
- Output Options: Open Drain; Open Drain, Push-Pull
- Number of Supplies: 1; 1
- Threshold: 4.65
from Shenzhen Shengyu Electronics Technology Limited
IC V-MONITOR MICROPROCESSR 14DIP [See More]
- Type: DIP; CDIP; 14-CERDIP
- Output Options: Open Drain
- Number of Supplies: 5; 5
- Threshold: 5 to 15
from DigiKey
IC SUPERVISOR 1 CHANNEL 8CERDIP [See More]
- Type: CDIP; 8-CDIP (0.300", 7.62mm)
- Output Options: Open Drain; Active Low
- Features: Manual Reset
- Pins: 8
from Acme Chip Technology Co., Limited
IC SUPERVISOR 1 CHANNEL 16CERDIP [See More]
- Type: CDIP; 16-CDIP (0.300, 7.62mm)
- Output Options: Open Drain; Open Drain or Open Collector
- Number of Supplies: 1; 1
- Threshold: 2.5
from DigiKey
IC SUPERVISOR 5 CHANNEL 14CERDIP [See More]
- Type: CDIP; 14-CDIP (0.300", 7.62mm)
- Pins: 14
- Output Options: Open Drain
- Threshold: 5 to 15
from DigiKey
IC SUPERVISOR 4 CHANNEL 18CDIP [See More]
- Type: CDIP; 18-CDIP (0.300", 7.62mm)
- Pins: 18
- Output Options: Open Drain; Active Low
- Operating Temperature: -40 to 85
from Maxim Integrated
µP and Non-Volatile Memory Supervisory Circuit [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N)
- Pins: 16
- Number of Supplies: 1
- IQ: 150
from Maxim Integrated
The ICL7665 warns microprocessors ( µPs) of overvoltage and undervoltage conditions. It draws a typical operating current of only 3 µA. The trip points and hysteresis of the two voltage detectors are individually programmed via external resistors to any voltage greater than 1.3V. The... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N), TO99
- Pins: 8
- Number of Supplies: 2
- IQ: 15
from Maxim Integrated
The MAX8215 contains five voltage comparators; four are for monitoring +5V, -5V, +12V, and -12V, and the fifth monitors any desired voltage. The MAX8216 is identical, except it monitors ±15V supplies instead of ±12V. The resistors required to monitor these voltages and provide... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N)
- Pins: 14
- Number of Supplies: > 5 Monitored Voltages
- IQ: 250
from Maxim Integrated
The MAX706P/R/S/T, MAX706AP/AR/AS/AT, and MAX708R/S/T microprocessor ( µP) supervisory circuits reduce the complexity and number of components required to monitor +3V power-supply levels in +3V to +5V µP systems. These devices significantly improve system reliability and accuracy... [See More]
- Type: SOIC; CDIP; PDIP; µMAX, CDIP(N), PDIP(N), SOIC(N)
- Pins: 8
- Number of Supplies: 1
- IQ: 200
from Maxim Integrated
These microprocessor ( µP) supervisory circuits reduce the complexity and number of components required for power-supply monitoring and battery-control functions in µP systems. They significantly improve system reliability and accuracy compared to separate ICs or discrete components. [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N)
- IQ: 50
- Pins: 8
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX1259 battery manager provides backup-battery switching for CMOS RAM, microprocessors, or other low-power logic ICs. It automatically switches to the backup battery when the primary power supply is interrupted. Low-loss switches guarantee an input-to-output differential of only 200mV while... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), LCC, PDIP(N), SOIC(W)
- IQ: 3330
- Pins: 16
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX703/MAX704 microprocessor ( µP) supervisory circuits reduce the complexity and number of components required for power-supply monitoring and battery control functions in µP systems. These devices significantly improve system reliability and accuracy compared to that obtained with... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N)
- IQ: 350
- Pins: 8
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX705 –MAX708/MAX813L microprocessor ( µP) supervisory circuits reduce the complexity and number of components required to monitor power-supply and battery functions in µP systems. These devices significantly improve system reliability and accuracy compared to separate ICs or... [See More]
- Type: SOIC; CDIP; PDIP; µMAX, CDIP(N), PDIP(N), SOIC(N)
- Pins: 8
- Number of Supplies: 1
- IQ: 350
from Maxim Integrated
The MAX1232 microprocessor ( µP) supervisory circuit provides µP housekeeping and power-supply supervision functions while consuming only 1/10th the power of the DS1232. The MAX1232 enhances circuit reliability in µP systems by monitoring the power supply, monitoring the software... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), LCC, PDIP(N), SOIC(N), SOIC(W)
- Pins: 8 to 16
- Number of Supplies: 1
- IQ: 200
from Maxim Integrated
The MAX791 microprocessor ( µP) supervisory circuit reduces the complexity and number of components needed to monitor power-supply and battery-control functions in µP systems. The 50 µA supply current makes the MAX791 ideal for use in portable equipment, while the 6ns chip-enable... [See More]
- Type: SOIC; TSSOP; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N), TSSOP
- IQ: 150
- Pins: 16
- Operating Temperature: -55 to 125
from Maxim Integrated
µP Reset IC with Watchdog and Battery Switchover [See More]
- Type: CDIP; PDIP; CDIP(N), LCC, PDIP(N)
- IQ: 5000
- Pins: 8
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX690A/MAX692A/MAX802L/MAX802M/MAX805L reduce the complexity and number of components required for power-supply monitoring and battery-control functions in microprocessor ( µP) systems. They significantly improve system reliability and accuracy compared to separate ICs or discrete... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N)
- IQ: 350
- Pins: 8
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX691A/MAX693A/MAX800L/MAX800M microprocessor ( µP) supervisory circuits are pin-compatible upgrades to the MAX691, MAX693, and MAX695. They improve performance with 30 µA supply current, 200ms typ reset active delay on power-up, and 6ns chip-enable propagation delay. Features... [See More]
- Type: SOIC; TSSOP; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N), SOIC(W), TSSOP
- IQ: 100
- Pins: 16
- Operating Temperature: -55 to 125
from Maxim Integrated
The MAX696/MAX697 supervisory circuits reduce the complexity and number of components required for power-supply monitoring and battery-control functions in microprocessor ( µP) systems. These include µP reset and backup-battery switchover, watchdog timer, CMOS RAM write protection, and... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), LCC, PDIP(N), SOIC(W)
- IQ: 4000
- Pins: 16
- Operating Temperature: -55 to 125
from Maxim Integrated
Maxim's MAX8211 and MAX8212 are CMOS micropower voltage detectors that warn microprocessors ( µPs) of power failures. Each contains a comparator, a 1.5V bandgap reference, and an open-drain n-channel output driver. Two external resistors are used in conjunction with the internal reference to... [See More]
- Type: SOIC; CDIP; PDIP; µMAX, CDIP(N), FPCK, PDIP(N), SOIC(N), TO99
- Pins: 8
- Number of Supplies: 1
- IQ: 15
from Maxim Integrated
The MXD1210 nonvolatile RAM controller is a very low-power CMOS circuit that converts standard (volatile) CMOS RAM into nonvolatile memory. It also continually monitors the power supply to provide RAM write protection when power to the RAM is in a marginal (out-of-tolerance) condition. When the... [See More]
- Type: SOIC; CDIP; PDIP; CDIP(N), PDIP(N), SOIC(N), SOIC(W)
- IQ: 500
- Pins: 8 to 16
- Operating Temperature: -55 to 125