HT48CA3(2003) View Datasheet(PDF) - Holtek Semiconductor
Part Name
Description
Manufacturer
HT48CA3 Datasheet PDF : 36 Pages
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HT48CA3
period of approximately 90ms. The WDT oscillator can
be disabled by ROM code option to conserve power.
Watchdog Timer - WDT
The WDT clock source is implemented by a dedicated
RC oscillator (WDT oscillator), instruction clock (system
clock divided by 4), determines the ROM code option.
This timer is designed to prevent a software malfunction
or sequence from jumping to an unknown location with
unpredictable results. The Watchdog Timer can be dis-
abled by ROM code option. If the Watchdog Timer is dis-
abled, all the executions related to the WDT result in no
operation.
Once the internal WDT oscillator (RC oscillator with a
period of 90ms@3V normally) is selected, it is first di-
vided by 256 (8-stage) to get the nominal time-out pe-
riod of 23ms@3V. This time-out period may vary with
temperatures, VDD and process variations. By invoking
the WDT prescaler, longer time-out periods can be real-
ized. Writing data to WS2, WS1, WS0 (bit 2,1,0 of the
WDTS) can give different time-out periods. If WS2,
WS1, and WS0 are all equal to 1, the division ratio is up
to 1:128, and the maximum time-out period is 2.9s/3V
seconds. If the WDT oscillator is disabled, the WDT
clock may still come from the instruction clock and oper-
ates in the same manner except that in the HALT state
the WDT may stop counting and lose its protecting pur-
pose. In this situation the logic can only be restarted by
external logic. The high nibble and bit 3 of the WDTS are
reserved for user¢s defined flags, which can be used to
indicate some specified status.
If the device operates in a noisy environment, using the
on-chip RC oscillator (WDT OSC) is strongly recom-
mended, since the HALT will stop the system clock.
WS2 WS1 WS0
Division Ratio
0
0
0
1:1
0
0
1
1:2
0
1
0
1:4
0
1
1
1:8
1
0
0
1:16
1
0
1
1:32
1
1
0
1:64
1
1
1
1:128
WDTS register
The WDT overflow under normal operation will initialize
²chip reset² and set the status bit ²TO². But in the HALT
mode, the overflow will initialize a ²warm reset² and only
the PC and SP are reset to zero. To clear the contents of
WDT (including the WDT prescaler), three methods are
adopted; external reset (a low level to RES), software in-
struction and a ²HALT² instruction. The software instruc-
tion include ²CLR WDT² and the other set - ²CLR
WDT1² and ²CLR WDT2². Of these two types of instruc-
tion, only one can be active depending on the ROM
code option - ²CLR WDT times selection option². If the
²CLR WDT² is selected (i.e. CLR WDT times equal
one), any execution of the ²CLR WDT² instruction will
clear the WDT. In the case that ²CLR WDT1² and ²CLR
WDT2² are chosen (i.e. CLR WDT times equal two),
these two instructions must be executed to clear the
WDT; otherwise, the WDT may reset the chip as a result
of time-out.
Power Down Operation - HALT
The HALT mode is initialized by the ²HALT² instruction
and results in the following...
· The system oscillator will be turned off but the WDT
oscillator remains running (if the WDT oscillator is se-
lected).
· The contents of the on chip RAM and registers remain
unchanged.
· WDT and WDT prescaler will be cleared and re-
counted again (if the WDT clock is from the WDT os-
cillator).
· All of the I/O ports maintain their original status.
· The PD flag is set and the TO flag is cleared.
The system can leave the HALT mode by means of an
external reset, an interrupt, an external falling edge sig-
nal on port A or a WDT overflow. An external reset
causes a device initialization and the WDT overflow per-
forms a ²warm reset². After the TO and PD flags are ex-
amined, the reason for chip reset can be determined.
The PD flag is cleared by system power-up or executing
the ²CLR WDT² instruction and is set when executing
the ²HALT² instruction. The TO flag is set if the WDT
time-out occurs, and causes a wake-up that only resets
the PC and SP; the others remain in their original status.
The port A wake-up and interrupt methods can be con-
sidered as a continuation of normal execution. Each bit
S y s te m C lo c k /4
W DT
O SC
ROM
C ode
O p tio n
S e le c t
8 - b it C o u n te r
W D T P r e s c a le r
7 - b it C o u n te r
8 -to -1 M U X
W S 0~W S 2
W D T T im e - o u t
Watchdog Timer
Rev. 1.40
9
July 16, 2003
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