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Real-Time Clocks (RTC ICs)

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HT1381

silicore

encapsulation：SOP8 HT1381 、point、hour、、、、 Of line hour Core ， individual as well as 。

Quantity: 50000

Ship Date: 5-7 working days

DC:24+

50+ $0.0773

100+ $0.0714

300+ $0.0702

Ext. Price: $3.86

MOQ: 50

Mult: 50

SPQ: 100

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D8563

silicore

encapsulation：SOP8 Of CMOS hour hour ／ electricity road ， hour ， individual and electricity detector， I2 C line mouth line .

Quantity: 50000

Ship Date: 5-7 working days

DC:24+

50+ $0.1193

100+ $0.1101

300+ $0.1082

Ext. Price: $5.96

MOQ: 50

Mult: 50

SPQ: 100

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D1302F

silicore

encapsulation：SOP8 D1302 / 31 RAM，。/calendar 、，31 ，。 AM/PM ， 12 24 。，：， VCC1， 31 。、、

Quantity: 50000

Ship Date: 5-7 working days

DC:24+

50+ $0.0548

100+ $0.0506

300+ $0.0497

Ext. Price: $2.74

MOQ: 50

Mult: 50

SPQ: 100

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Real-Time Clocks (RTC ICs)

Real-Time Clocks (RTCs) are electronic devices that keep track of the current time, typically with a precision of seconds. They are essential components in many electronic systems that require accurate timekeeping.

Definition:
An RTC is a specialized clock that operates independently of the system's CPU and continues to function even when the system is powered off. It is often powered by a small battery to maintain time during power outages.

Functions:
1. Timekeeping: RTCs maintain the current time, , and sometimes even the phase of the moon.
2. Alarms: They can be programmed to alarms or events at specific times.
3. Time Stamping: In data logging applications, RTCs provide a timestamp for each entry.
4. Synchronization: They help synchronize operations across different parts of a system or between multiple systems.

Applications:
1. Computers: RTCs are used in BIOS/UEFI to maintain the system time.
2. Embedded Systems: In devices like routers, set-top boxes, and IoT devices for time-sensitive operations.
3. Automotive: For time-stamping events, managing schedules, and synchronizing systems.
4. Industrial Control: For process control and where precise timing is crucial.

Selection Criteria:
1. Accuracy: RTCs should maintain a high level of accuracy over time.
2. Power Source: Some RTCs are powered by a small battery to keep time during power outages.
3. Interface: The RTC should be compatible with the system's interface (I2C, SPI, etc.).
4. Temperature Range: For applications with varying temperatures, RTCs with a wide operating temperature range are preferred.
5. Size and Form Factor: Depending on the application, the physical size and form factor of the RTC may be important.
6. Cost: The budget for the project will influence the choice of RTC.
7. Reliability and Longevity: The RTC should have a proven track record of reliability and a long service life.

When selecting an RTC, it's important to consider the specific requirements of the application, including the necessary accuracy, power consumption, and environmental conditions.
Please refer to the product rule book for details.