DS1500YEN 应用笔记 - Maxim Integrated

Maxim > Design Support > Technical Documents > Application Notes > Embedded Security > APP 58

Maxim > Design Support > Technical Documents > Application Notes > Real-Time Clocks > APP 58

Maxim > Design Support > Technical Documents > Application Notes > Time and Temperature Recorders > APP 58

Keywords: real-time clock (RTC), 32kHz crystal, Pierce oscillator, timekeeping, elapsed time counter (ETC)

APPLICATION NOTE 58

Crystal Considerations with Maxim Real-Time Clocks (RTCs)

Mar 29, 2001

Abstract:

This application note

describes crystal selection and layout techniques for connecting a 32,768Hz crystal to a real-time clock (RTC). It also provides information

specified for a certain frequency with a specific load capacitance. For the oscillator to run at the correct frequency, the oscillator circuit must load the crystal with the correct

capacitive load.

Figure 1. RTC oscillator with internal load capacitors and bias resistors.

Accuracy

The frequency accuracy of a crystal-based oscillator circuit is mainly dependent upon the accuracy of the crystal and the accuracy of the match between the crystal and the

oscillator capacitive load. If the capacitive load is less than the crystal was designed for, the oscillator runs fast. If the capacitive load is greater than what the crystal was

designed for, the oscillator runs slow.

In addition to the errors from the crystal and the load match, crystals vary from their base frequency as the ambient temperature changes. Maxim RTCs use "tuning fork"

crystals, which exhibit an error over temperature, as shown in Figure 2. An error of 20ppm is equivalent to approximately 1 minute per month.

Figure 2. Crystal frequency vs. temperature.