P89C51RB2HBA NXP Semiconductors, P89C51RB2HBA Datasheet - Page 30
P89C51RB2HBA
Manufacturer Part Number
P89C51RB2HBA
Description
Manufacturer
NXP Semiconductors
Datasheet
1.P89C51RB2HBA.pdf
(56 pages)
Specifications of P89C51RB2HBA
Cpu Family
89C
Device Core
80C51
Device Core Size
8b
Frequency (max)
33MHz
Interface Type
UART
Program Memory Type
Flash
Program Memory Size
16KB
Total Internal Ram Size
512Byte
# I/os (max)
32
Number Of Timers - General Purpose
3
Operating Supply Voltage (typ)
5V
Operating Supply Voltage (max)
5.5V
Operating Supply Voltage (min)
4.5V
Instruction Set Architecture
CISC
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
44
Package Type
PLCC
Lead Free Status / Rohs Status
Not Compliant
Available stocks
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Manufacturer
Quantity
Price
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P89C51RB2HBA
Manufacturer:
PHILIPS
Quantity:
1 235
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P89C51RB2HBA
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PHILIPS
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Philips Semiconductors
PCA Watchdog Timer
An on-board watchdog timer is available with the PCA to improve the
reliability of the system without increasing chip count. Watchdog
timers are useful for systems that are susceptible to noise, power
glitches, or electrostatic discharge. Module 4 is the only PCA module
that can be programmed as a watchdog. However, this module can
still be used for other modes if the watchdog is not needed.
Figure 25 shows a diagram of how the watchdog works. The user
pre-loads a 16-bit value in the compare registers. Just like the other
compare modes, this 16-bit value is compared to the PCA timer
value. If a match is allowed to occur, an internal reset will be
generated. This will not cause the RST pin to be driven high.
In order to hold off the reset, the user has three options:
1. periodically change the compare value so it will never match the
2. periodically change the PCA timer value so it will never match
3. disable the watchdog by clearing the WDTE bit before a match
2002 May 24
80C51 8-bit Flash microcontroller family
16KB/32KB/64KB ISP/IAP Flash with 512B/512B/1KB RAM
PCA timer,
the compare values, or
occurs and then re-enable it.
WRITE TO
CCAP4H
1
WRITE TO
CCAP4L
0
RESET
ENABLE
Figure 25. PCA Watchdog Timer mode (Module 4 only)
CCAP4H
16–BIT COMPARATOR
CH
PCA TIMER/COUNTER
CIDL
––
ECOMn
WDTE
CCAP4L
CL
CAPPn
27
––
0
MODULE 4
timer is never disabled as in option #3. If the program counter ever
MATCH
The first two options are more reliable because the watchdog
goes astray, a match will eventually occur and cause an internal
reset. The second option is also not recommended if other PCA
modules are being used. Remember, the PCA timer is the time
base for all modules; changing the time base for other modules
would not be a good idea. Thus, in most applications the first
solution is the best option.
Figure 26 shows the code for initializing the watchdog timer.
Module 4 can be configured in either compare mode, and the WDTE
bit in CMOD must also be set. The user’s software then must
periodically change (CCAP4H,CCAP4L) to keep a match from
occurring with the PCA timer (CH,CL). This code is given in the
WATCHDOG routine in Figure 26.
This routine should not be part of an interrupt service routine,
because if the program counter goes astray and gets stuck in an
infinite loop, interrupts will still be serviced and the watchdog will
keep getting reset. Thus, the purpose of the watchdog would be
defeated. Instead, call this subroutine from the main program within
2
16
CAPNn
count of the PCA timer.
––
0
MATn
––
1
P89C51RB2/P89C51RC2/
TOGn
CPS1
X
CPS0
PWMn
0
P89C51RD2Hxx
ECCFn
ECF
X
CMOD
(D9H)
RESET
CCAPM4
(DEH)
SU01511
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