Philips Semiconductors

User’s Manual - Preliminary -

 

 

REAL-TIME CLOCK/SYSTEM TIMER

P89LPC901/902/903

6. REAL-TIME CLOCK/SYSTEM TIMER

The P89LPC901/902/903 has a simple Real-time clock/system timer that allows a user to continue running an accurate timer while the rest of the device is powered down. The Real-time clock can be an interrupt or a wake-up source (see Figure 6-1). The Real-time clock is a 23-bit down counter.

Real-time Clock Source

On the P89LPC901 the clock source for this counter can be either CCLK or the XTAL1-2 oscillator (XCLK) . On the P89LPC902 and P89LPC903 devicesthe clock source for this counter is CCLK. Please refer to Figure 2-3 "Block Diagram of Oscillator Control

-P89LPC901" in section "Clocks" on page 27. CCLK can have either the XTAL1-2 oscillator, the internal RC oscillator, or the Watchdog oscillator as its clock source. If the XTAL1-2 oscillator is used for producing CCLK, the RTC will use either the XTAL1- 2 oscillator’s output or CCLK as its clock source. The possible clocking combinations are shown in Table , below.

There are three SFRs used for the RTC:

RTCCON - Real-time clock control.

RTCH - Real-time clock counter reload high (bits 22-15).

RTCL - Real-time clock counter reload low (bits 14-7).

The Real-time clock/system timer can be enabled by setting the RTCEN (RTCCON.0) bit. The Real-time clock is a 23-bit down counter (initialized to all 0’s when RTCEN = 0) that is comprised of a 7-bit prescaler and a 16-bit loadable down counter. When RTCEN is written with ’1’, the counter is first loaded with (RTCH,RTCL,’1111111’) and will count down. When it reaches all 0’s, the counter will be reloaded again with (RTCH,RTCL,’1111111’) and a flag - RTCF (RTCCON.7) - will be set.

Any write to RTCH and RTCL in-between the Real-time clock reloading will not cause reloading of the counter. When the current count terminates, the contents of RTCH and RTCL will be loaded into the counter and the new count will begin. An immediate reload of the counter can be forced by clearing the RTCEN bit to ’0’ and then setting it back to ’1’ .

 

 

 

Power-On

 

 

 

 

Reset

 

R T C H

 

R TC L

RTC Reset

XTAL2 XTAL1

Reload on underflow

 

 

 

 

 

 

Low freq.

 

 

 

 

Med. freq.

M SB

 

LSB

7-bit prescaler

High freq.

 

23-bit down counter

÷ 128

CC LK

W ake up from

 

 

 

Int. Osc’s

 

 

 

 

Power-down

 

R TC F

R T C EN

R T C S 1 R TC S2

 

 

Interrupt

ER TC

RTC underflow flag

RTC Enable

RTC clk select

if enabled

 

 

 

 

(shared w. W DT)

 

 

 

 

Figure 6-1: Real-time clock/system timer Block Diagram

2003 Dec 8

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Philips P89LPC901, P89LPC903, P89LPC902 user manual Real-time Clock Source, Real-time clock/system timer Block Diagram
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P89LPC903, P89LPC902, P89LPC901 specifications

The Philips P89LPC901, P89LPC902, and P89LPC903 are a series of 8-bit microcontrollers designed for embedded system applications. These models, which belong to the LPC900 series, are notable for their affordability and versatility, making them an attractive choice for both hobbyists and professional developers.

One of the core features of the P89LPC901, P89LPC902, and P89LPC903 microcontrollers is their powerful 8-bit architecture. Operating at clock speeds up to 20 MHz, they deliver efficient performance suited for a range of tasks. Each model includes a comprehensive instruction set that supports various data manipulation and arithmetic functions, enabling extensive programming capabilities.

These microcontrollers come with built-in memory, with configurations that vary among the three models. The P89LPC901 typically features 4 KB of Flash memory and 256 bytes of RAM, while the P89LPC902 and P89LPC903 offer enhanced memory options. This Flash memory allows for reprogrammability, making it easier to update and modify applications as needed.

Another significant characteristic of the LPC900 series is their integrated peripherals. These models are equipped with a variety of I/O ports, allowing for easy interfacing with other devices and components. The P89LPC901 supports up to 32 I/O pins, while the P89LPC902 and P89LPC903 provide additional features such as analog-to-digital converters (ADCs), timers, and serial communication interfaces. This broad range of peripherals empowers developers to design complex applications without needing extra hardware.

Power consumption is also a key consideration for microcontroller applications. The P89LPC901, P89LPC902, and P89LPC903 are designed with low power consumption in mind, making them ideal for battery-operated devices and energy-efficient projects. They can operate in various power modes, allowing for greater flexibility in deployment.

In terms of technology, these microcontrollers utilize advanced CMOS technology, ensuring high reliability and durability. Their design offers a robust solution for numerous applications, including consumer electronics, industrial controls, and automation systems.

In summary, the Philips P89LPC901, P89LPC902, and P89LPC903 microcontrollers present an attractive combination of performance, integrated peripherals, low power consumption, and versatility. Their features cater to a wide array of applications, keeping them relevant in a rapidly evolving technology landscape. For hobbyists and professionals alike, these microcontrollers represent a reliable foundation for embedded system development.
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