WSH412 Hall Effect Sensor IC With Thermal Lock Protection And Auto Restart Function
The XC6119 series voltage detector is designed to provide accurate voltage monitoring in compact electronic applications. The device operates with minimal power consumption, making it ideal for battery-operated devices and energy-sensitive applications. The incorporation of CMOS technology ensures high precision and reliability in voltage detection.
A notable feature of the XC6119 series is its built-in delay circuit, which allows for customization of the release delay time. This is achieved by connecting an external capacitor to the Cd pin, enabling designers to tailor the timing characteristics of the voltage detection to suit specific application requirements. This flexibility is particularly advantageous in circuits where timing is critical, such as in power management systems.
The ultra-small USPN-4 package facilitates high-density mounting, making the XC6119 suitable for modern compact electronic designs where space is at a premium. The availability of both CMOS and N-channel open-drain output configurations provides additional versatility, allowing designers to select the appropriate output type based on their circuit requirements.
In summary, the XC6119 series voltage detector offers a combination of precision, low power consumption, and flexible timing capabilities in a compact package, making it an excellent choice for a wide range of electronic applications.The XC6119 series is a highly precise, low power consumption voltage detector, manufactured using CMOS and laser trimming technologies. The device includes the built-in delay circuit. A release delay time CAN be set freely by connecting an external delay capacitor to the Cd pin. The device using an ultra small package (USPN-4) is suited for high d ensity mounting applications. Both CMOS and N-channel open drain output configurations are available. By TOREX SEMICONDUCTOR LTD. 🔗 External reference
Related Circuits
Voltage fluctuation is a significant concern in residential settings. For various reasons, the supply voltage may exceed 110V or 230V. This excessive voltage can potentially damage household electrical devices. An effective solution for electrical protection is the implementation of...
This is an automatic battery charger circuit that utilizes the LM324 integrated circuit, which enhances efficiency. It is capable of charging both 12V and 6V batteries, with filtration managed by switch S1. The circuit is designed to stop charging...
This is a design schematic for sensing the electromagnetic field. The circuit is built using a 741 operational amplifier (op-amp) IC. It can detect electromagnetic fields, including those from hidden wiring. A 1mH inductor is employed for sensing the...
Similar to the previous circuit utilizing the LM358, this design is also cost-effective, priced under 100 rupees. It is a circuit intended for the automatic control of street lights and garden lights. Users do not need to manually turn...
This schematic diagram illustrates a water level sensor, detector, and monitor circuit. An alarm is also integrated into this circuit. It is designed to detect any fluid with a resistance below 900K ohms. The water level sensor circuit typically employs conductive...
The servo driver is just simply two 4017 decade counters and lots of 0.1" headers. Only populate the A side headers; the B servo bank is optional and will require a few more header pieces. If you received 20...