Cpu clocks, Real time clock (rtc), Cpu clocks -9 – Cirrus Logic EP73xx User Manual
Page 35: Table 2-2: arm720t core coprocessor registers -9
EP7309/11/12 User’s Manual - DS508UM4
2-9
Copyright Cirrus Logic, Inc. 2003
CPU Core
22
2
CPU Clocks
There are two clocks required to maintain any of the processor states that will be
described in the following section.
• Real Time Clock (RTC)
• On-chip PLL (Phase Lock Loop) Clock
• External 13 MHz Clock (Optional)
Real Time Clock (RTC)
The RTC is generated from an external 32 kHz crystal oscillator created by the crystals
fundamental tone. The RTC, from the crystal will be clocked at 1 Hz. Internally, it
contains a match and data registers that are updated once per second. More
information is contained in
of the manual.
Real Time Clock Characteristics and Interface Requirements
• The external crystal connects directly to the
RTCIN
and
RTCOUT
pins on the
processor.
• 32.768 kHz frequency should be created by the fundamental tone of the
external crystal.
Table 2-2: ARM720T Core Coprocessor Registers
Register
Description
0
ID Register (Read/Write) register than may return an ID consisting of an
architecture version and ARM trademark
1
Control (Read/Write) register to enable MMU, cache, write buffer, and other
coprocessor operations
2
Translation Base Table (Read/Write) register contains the start address of the first
level translation table
3
Domain Access Control (Read/Write) register specifies permissions for all 16
domains
4
Reserved
5
Fault Status (Read/Write) register indicates type of fault and domain of last data
abort. Write to this location flushes entire TLB.
6
Fault Address (Read/Write) register contains address of the last data access abort
7
Cache Operation (Write) register will configure or perform a clean (flush) of the
cache and write buffer when written to
8
TLB Operation (Write) register can configure or clean (flush) when written to
9-12
Reserved
13
Used to support WinCE. Returns a logic “1” if WinCE enhancements are enabled.
14-15
Reserved