HT46R48 Просмотр технического описания (PDF) - Holtek Semiconductor
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HT46R48 Datasheet PDF : 42 Pages
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HT46R48
Bit No.
0
1
2
3
4
5
6
7
Label
EMI
EEI
ETI
EADI
EIF
TF
ADF
¾
Function
Controls the master (global) interrupt (1=enabled; 0=disabled)
Controls the external interrupt (1=enabled; 0=disabled)
Controls the Timer/Event Counter interrupt (1=enabled; 0=disabled)
Controls the A/D converter interrupt (1=enabled; 0=disabled)
External interrupt request flag (1=active; 0=inactive)
Internal Timer/Event Counter request flag (1=active; 0=inactive)
A/D converter request flag (1=active; 0=inactive)
For test mode used only.
Must be written as ²0²; otherwise may result in unpredictable operation.
INTC (0BH) Register
During the execution of an interrupt subroutine, other in-
terrupt acknowledgments are held until the RETI in-
struction is executed or the EMI bit and the related
interrupt control bit are set to 1 (of course, if the stack is
not full). To return from the interrupt subroutine, RET or
RETI may be invoked. RETI will set the EMI bit to enable
an interrupt service, but RET will not.
Interrupts, occurring in the interval between the rising
edges of two consecutive T2 pulses, will be serviced on
the latter of the two T2 pulses, if the corresponding inter-
rupts are enabled. In the case of simultaneous requests
the following table shows the priority that is applied.
These can be masked by resetting the EMI bit.
Interrupt Source
Priority
External Interrupt
1
Timer/Event Counter Overflow
2
A/D Converter Interrupt
3
Vector
004H
008H
00CH
The timer/event counter interrupt request flag (TF), exter-
nal interrupt request flag (EIF), A/D converter request flag
(ADF), enable timer/event counter bit (ETI), enable exter-
nal interrupt bit (EEI), enable A/D converter interrupt bit
(EADI) and enable master interrupt bit (EMI) constitute
an interrupt control register (INTC) which is located at
0BH in the data memory. EMI, EEI, ETI, EADI are used to
control the enabling/disabling of interrupts. These bits
prevent the requested interrupt from being serviced.
Once the interrupt request flags (TF, EIF, ADF) are set,
they will remain in the INTC register until the interrupts
are serviced or cleared by a software instruction.
It is recommended that a program does not use the CALL
subroutine within the interrupt subroutine. Interrupts of-
ten occur in an unpredictable manner or need to be ser-
viced immediately in some applications. If only one stack
is left and enabling the interrupt is not well controlled, the
original control sequence will be damaged once the
²CALL² operates in the interrupt subroutine.
Oscillator Configuration
There are two oscillator circuits in the microcontroller.
O SC1
V DD
470pF
O SC1
O SC2
C r y s ta l O s c illa to r
fS Y S /4
O SC2
R C O s c illa to r
System Oscillator
Both are designed for system clocks, namely the RC os-
cillator and the crystal oscillator, which are determined
by the options. No matter what oscillator type is se-
lected, the signal provides the system clock. The HALT
mode stops the system oscillator and ignores an exter-
nal signal to conserve power.
If an RC oscillator is used, an external resistor between
OSC1 and VSS is required and the resistance must
range from 24kW to 1MW. The system clock, divided by
4, is available on OSC2 with pull-high resistor, which
can be used to synchronize external logic. The RC os-
cillator provides the most cost effective solution. How-
ever, the frequency of oscillation may vary with VDD,
temperatures and the chip itself due to process varia-
tions. It is, therefore, not suitable for timing sensitive
operations where an accurate oscillator frequency is
desired.
If the Crystal oscillator is used, a crystal across OSC1
and OSC2 is needed to provide the feedback and phase
shift required for the oscillator, and no other external
components are required. Instead of a crystal, a resona-
tor can also be connected between OSC1 and OSC2 to
get a frequency reference, but two external capacitors in
OSC1 and OSC2 are required (If the oscillating fre-
quency is less than 1MHz).
The WDT oscillator is a free running on-chip RC oscilla-
tor, and no external components are required. Even if
the system enters the power down mode, the system
clock is stopped, but the WDT oscillator still works with a
period of approximately 65ms at 5V. The WDT oscillator
can be disabled by options to conserve power.
Rev. 1.10
10
March 24, 2006
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