Operating voltage: On-chip crystal, 32768Hz crystal oscillator HALT fu
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HT49R30A-1/HT49C30-1/HT49C30L 8-Bit Type
Operating voltage: On-chip crystal, 32768Hz crystal oscillator HALT function wake-up feature reduce power
fSYS= 4MHz: 2.2V~5.5V HT49R30A-1/HT49C30-1 fSYS= 8MHz: 3.3V~5.5V HT49R30A-1/HT49C30-1 fSYS= 500kHz: 1.2V~2.2V HT49C30L
input lines bidirectional lines external interrupt input 8-bit programmable timer/event counter with
consumption
4-level subroutine nesting manipulation instruction 14-bit table read instruction 0.5ms instruction cycle with 8MHz system clock
(programmable frequency divider) function
driver with segments program memory data memory Real Time Clock (RTC) 8-bit prescaler Watchdog Timer Buzzer output
HT49R30A-1/HT49C30-1
instruction cycle with 500kHz system clock
HT49C30L
powerful instructions instructions machine cycles voltage reset/detector
HT49R30A-1/HT49C30-1
48-pin SSOP package
General Description
HT49R30A-1/HT49C30-1/HT49C30L 8-bit, high performance, RISC architecture microcontroller devices specifically designed wide range applications. mask version HT49C30-1 HT49C30L fully functionally compatible with version HT49R30A-1 device. HT49C30L voltage version, with ability operate minimum power supply 1.2V, making suitable single cell battery applications. advantages power consumption, flexibility, programmable frequency divider, timer functions, oscillator options, HALT wake-up functions buzzer driver addition flexible configurable interface, enhance versatility these devices control wide range LCD-based application possibilities such measuring scales, electronic multimeters, meters, timers, calculators, remote controllers many other LCD-based industrial home appliance applications.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Block Diagram
ifte
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Assignment
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Assignment
HT49R30A-1
substrate should connected layout artwork.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
HT49C30-1
substrate should connected layout artwork.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
HT49C30L
substrate should connected layout artwork.
Description
Name PA0/BZ PA1/BZ PA3/PFD PA4~PA7 Options Wake-up Pull-high None CMOS NMOS Description PA0~PA7 constitute 8-bit bidirectional input/output port with Schmitt trigger input capability. Each port configured wake-up input options. PA0~PA3 configured CMOS output NMOS input/output with without pull-high resistor options. PA4~PA7 always pull-high NMOS input/output. eight bits, PA0~PA1 pins buzzer outputs options. output also options. PB0~PB5 constitute 6-bit Schmitt trigger input port. Each port with pull-high resistor. bits, input pins external interrupt control pins (INT0) (INT1) respectively, software application. input timer/event counter input also software application. power supply HT49R30A-1/HT49C30-1. Voltage pump HT49C30L. Voltage pump HT49R30A-1/HT49C30-1. power supply HT49C30L. Voltage pump
PB0/INT0 PB1/INT1 PB2/TMR PB3~PB5 VLCD V1,C1,C2 COM0~COM2 COM3/SEG18
1/2, SEG18 segment common output driver panel Duty options. COM0~COM2 outputs panel plate.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Name SEG0~SEG17 Options Description driver outputs panel segments
OSC1 OSC2
OSC1 OSC2 connected network crystal options) internal system clock. case operation, OSC2 output Crystal terminal system clock. system clock come from oscillator. system clock comes from OSC, these pins floating. Real time clock oscillators. OSC3 OSC4 connected 32768Hz crystal oscillator timing purposes system clock source (depending System Clock options). Negative power supply, ground Positive power supply Schmitt trigger reset input, active
OSC3 OSC4
Absolute Maximum Ratings
Supply Voltage.VSS-0.3V VSS+6.0V* Storage Temperature .-50°C 125°C Operating Temperature .-40°C 85°C Note: These stress ratings only. Stresses exceeding range specified under Maximum cause substantial damage device. Functional operation this device other conditions beyond those listed specification implied prolonged exposure extreme conditions affect device reliability. HT49R30A-1/HT49C30-1 HT49C30L Supply Voltage .VSS-0.3V VSS+2.5V** Input Voltage.VSS-0.3V VDD+0.3V
D.C. Characteristics
VDD=1.5V HT49C30L, VDD=3V VDD=5V HT49R30A-1 HT49C30-1 Test Conditions Symbol Parameter Conditions HT49C30L Operating Voltage disable, fSYS=4MHz (for HT49R30A-1/HT49C30-1) fSYS=8MHz (for HT49R30A-1/HT49C30-1) VLCD Power Supply (Note HT49R30A-1/HT49C30-1, Min. Typ. Max. Unit Ta=25°C
1.5V load, fSYS=455kHz IDD1 Operating Current (Crystal OSC) 1.5V load, fSYS=400kHz IDD2 Operating Current OSC) Operating Current OSC, Crystal) IDD3 load, fSYS=8MHz load, fSYS=4MHz load, fSYS=4MHz
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Test Conditions Symbol Parameter 1.5V IDD4 Operating Current (fSYS=32768Hz) 1.5V ISTB1 Standby Current (*fS=T1) 1.5V ISTB2 Standby Current (*fS=32.768kHz OSC) 1.5V ISTB3 Standby Current (*fS=WDT OSC) ISTB4 Standby Current (*fS=32.768kHz OSC) Standby Current (*fS=32.768kHz OSC) Standby Current (*fS=WDT OSC) Standby Current (*fS=WDT OSC) Input Voltage Ports, Input High Voltage Ports, Input Voltage (RES) Input High Voltage (RES) 1.5V VIH1 VIL2 VIH2 1.5V IOL1 Port Sink Current 1.5V IOH1 Port Source Current IOL2 Common Segment Current Common Segment Current VOH=0.9VDD VOL=0.1VDD VOH=0.9VDD VOL=0.1VDD load, system HALT, HALT, type, bias load, system HALT, HALT, type, bias load, system HALT, HALT, type, bias load, system HALT, HALT, type, bias load, system HALT HALT, type load, system HALT, HALT, type load, system HALT, HALT load Conditions 0.8VDD 0.7VDD 0.7VDD 0.9VDD -0.3 -180 -0.6 -160 -360 0.3VDD 0.4VDD Min. Typ. Max. Unit
ISTB5
ISTB6
ISTB7 VIL1
IOH2
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Test Conditions Symbol Parameter 1.5V Pull-high Resistance Ports INT0, INT1 Voltage Reset Voltage Voltage Detector Voltage Conditions Min. Typ. Max. Unit
VLVR VLVD Note:
value refer driver section. tSYS=1/fSYS please refer clock option
A.C. Characteristics
VDD=1.5V HT49C30L, VDD=3V VDD=5V HT49R30A-1 HT49C30-1 Test Conditions Symbol Parameter fSYS1 System Clock (Crystal OSC) fSYS2 System Clock OSC) fSYS3 fRTCOSC System Clock (32768Hz Crystal OSC) Frequency fTIMER Timer Frequency 1.5V tWDTOSC Watchdog Oscillator Period tRES tSST tINT External Reset Pulse Width System Start-up Timer Period Interrupt Pulse Width HT49C30L HT49R30A-1/HT49C30-1 Wake-up from HALT HT49C30L HT49R30A-1/HT49C30-1 1.2V~2.2V 2.2V~5.5V 3.3V~5.5V Conditions 1.2V~2.2V 2.2V~5.5V 3.3V~5.5V 1.2V~2.2V 2.2V~5.5V 3.3V~5.5V 32768 32768 1024 4000 8000 4000 8000 4000 8000 *tSYS Min. Typ. Max. Unit Ta=25°C
Note: *tSYS=1/fSYS
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Functional Description
Execution Flow system clock derived from either crystal oscillator 32768Hz crystal oscillator. internally divided into four non-overlapping clocks. instruction cycle consists four system clock cycles. Instruction fetching execution pipelined such that fetch takes instruction cycle while decoding execution takes next instruction cycle. pipelining scheme causes each instruction effectively execute cycle. instruction changes value program counter, cycles required complete instruction. Program Counter program counter (PC) bits wide controls sequence which instructions stored program executed. contents specify maximum 2048 addresses. After accessing program memory word fetch instruction code, value incremented one. then points memory word containing next instruction code. When executing jump instruction, conditional skip execution, loading register, subroutine call, initial reset, internal interrupt, external interrupt, returning from subroutine, manipulates program transfer loading address corresponding each instruction. conditional skip activated instructions. Once condition met, next instruction, fetched during current instruction execution, discarded dummy cycle replaces proper instruction; otherwise proceed with next instruction. lower byte (PCL) readable writeable register (06H). Moving data into performs short jump. destination within locations.
Execution Flow Program Counter PC+2
Mode Initial Reset External Interrupt External Interrupt Timer/Event Counter Overflow Time Base Interrupt Interrupt Skip Loading Jump, Call Branch Return From Subroutine
Program Counter Note: *10~*0: Program counter bits #10~#0: Instruction code bits S10~S0: Stack register bits @7~@0: bits
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
When control transfer takes place, additional dummy cycle required. Program Memory program memory used store program instructions which executed. also contains data, table, interrupt entries, organized into bits which addressed table pointer. Certain locations reserved special usage:
Location 000H
itia
Location 000H reserved program initialization. After chip reset, program always begins execution this location.
Location 004H
Location 004H reserved external interrupt service program. INT0 input activated, interrupt enabled, stack full, program begins execution location 004H.
Location 008H
Program Memory higher-order byte TBLH (Table Higher-order byte register) (08H). Only destination lower-order byte table well-defined; other bits table word transferred lower portion TBLH, remaining read TBLH read only, table pointer (TBLP) read/write register (07H), indicating table location. Before accessing table, location should placed TBLP. table related instructions require cycles complete operation. These areas function normal depending upon requirements. Stack Register STACK stack register special part memory used save contents stack organized into levels neither part data part program, neither readable writeable. activated level indexed stack pointer (SP) neither readable writeable. commencement subroutine call interrupt acknowledgment, contents pushed onto stack. subroutine interrupt routine, signaled return instruction (RET RETI), contents restored previous value from stack. After chip reset, will point stack.
Location 008H reserved external interrupt service program also. INT1 input activated, interrupt enabled, stack full, program begins execution location 008H.
Location 00CH
Location 00CH reserved timer/event counter interrupt service program. timer interrupt results from timer/event counter overflow, interrupt enabled stack full, program begins execution location 00CH.
Location 010H
Location 010H reserved Time Base interrupt service program. Time Base interrupt occurs, interrupt enabled, stack full, program begins execution location 010H.
Location 014H
Location 014H reserved real time clock interrupt service program. real time clock interrupt occurs, interrupt enabled, stack full, program begins execution location 014H.
Table location
location used look-up table. instructions (the current page, page=256 words) (the last page) transfer contents lower-order byte specified data memory, contents
Instruction(s) TABRDC TABRDL
Table Location
Table Location Note: *10~*0: Table location bits @7~@0: Table pointer bits P10~P8: Current program counter bits
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
stack full non-masked interrupt takes place, interrupt request flag recorded acknowledgment still inhibited. Once decremented RETI), interrupt serviced. This feature prevents stack overflow, allowing programmer structure easily. Likewise, stack full, subsequently executed, stack overflow occurs first entry lost (only most recent four return addresses stored). Data Memory data memory (RAM) designed with bits, divided into functional groups, namely special function registers general purpose data memory, most which readable/writeable, although some read only. types functional groups, special function registers consist Indirect addressing register (00H), Memory pointer register (MP0;01H), Indirect addressing register (02H), Memory pointer register (MP1;03H), Bank pointer (BP;04H), Accumulator (ACC;05H), Program counter lower-order byte register (PCL;06H), Table pointer (TBLP;07H), Table higher-order byte register (TBLH;08H), Real time clock control register (RTCC;09H), Status register (STATUS;0AH), Interrupt control register (INTC0;0BH), timer/event counter (TMR;0DH), timer/event counter control register (TMRC;0EH), registers (PA;12H, PB;14H), Interrupt control register (INTC1;1EH). other hand, general purpose data memory, addressed from 7FH, used data control information under instruction commands. areas directly handle arithmetic, logic, increment, decrement, rotate operations. Except some dedicated bits, each reset They also indirectly accessible through Memory pointer register (MP0;01H) Memory pointer register (MP1;03H). Indirect Addressing Register Location indirect addressing registers that physically implemented. read/write operation [00H] [02H] accesses pointed (01H) MP1(03H) respectively. Reading location indirectly returns result 00H. While, writing indirectly leads operation. function data movement between indirect addressing registers supported. memory pointer registers, (7-bit) (7-bit), used access combining corresponding indirect addressing registers. only applied data memory, while applied data memory display memory.
Mapping
Accumulator accumulator (ACC) related operations. also mapped location capable operating with immediate data. data movement between data memory locations must pass through ACC. Arithmetic Logic Unit This circuit performs 8-bit arithmetic logic operations provides following functions:
Arithmetic operations (ADD, ADC, SUB, SBC, DAA) Logic operations (AND, XOR, CPL) Rotation (RL, RLC, RRC) Increment Decrement (INC, DEC) Branch decision (SZ, SNZ, SIZ, etc.)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
only saves results data operation also changes status register. Status Register STATUS status register (0AH) bits wide contains, carry flag (C), auxiliary carry flag (AC), zero flag (Z), overflow flag (OV), power down flag (PDF), watchdog time-out flag (TO). also records status information controls operation sequence. Except flags, bits status register altered instructions similar other registers. Data written into status register does alter flags. Operations related status register, however, yield different results from those intended. flags only changed Watchdog Timer overflow, chip power-up, clearing Watchdog Timer executing instruction. flags reflect status latest operations. entering interrupt sequence executing subroutine call, status register will automatically pushed onto stack. contents status important, subroutine likely corrupt status register, programmer should take precautions save properly. Interrupts device provides external interrupts, internal timer/event counter interrupt, internal time base interrupt, internal real time clock interrupt. interrupt control register (INTC0;0BH) interrupt control register (INTC1;1EH) both contain interrupt control bits that used enable/disable status interrupt request flags. Once interrupt subroutine serviced, other interrupts blocked clearing bit). This Labels Bits scheme prevent further interrupt nesting. Other interrupt requests take place during this interval, only interrupt request flag will recorded. certain interrupt requires servicing within service routine, corresponding INTC0 INTC1 order allow interrupt nesting. Once stack full, interrupt request will acknowledged, even related interrupt enabled, until decremented. immediate service desired, stack should prevented from becoming full. these interrupts support wake-up function. interrupt serviced, control transfer occurs pushing contents onto stack followed branch subroutine specified location ROM. Only contents pushed onto stack. contents register status register (STATUS) altered interrupt service program which corrupts desired control sequence, contents should saved advance. External interrupts triggered high transition INT0 INT1, related interrupt request flag (EIF0;bit INTC0, EIF1;bit INTC0) well. After interrupt enabled, stack full, external interrupt active, subroutine call location occurs. interrupt request flag (EIF0 EIF1) bits cleared disable other interrupts. internal timer/event counter interrupt initialized setting timer/event counter interrupt request flag (TF;bit INTC0), which normally caused timer overflow. After interrupt enabled, stack full, set, subroutine call location occurs. related interrupt request flag (TF) reset, cleared disable further interrupts.
Function operation results carry during addition operation borrow does take place during subtraction operation; otherwise cleared. also affected rotate through carry instruction. operation results carry nibbles addition borrow from high nibble into nibble subtraction; otherwise cleared. result arithmetic logic operation zero; otherwise cleared. operation results carry into highest-order carry highest-order bit, vice versa; otherwise cleared. cleared either system power-up executing instruction. executing instruction. cleared system power-up executing instruction. time-out. Unused bit, read Status Register
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Register INTC0 (0BH) INTC1 (1EH) Label EEI0 EEI1 EIF0 EIF1 ETBI ERTI Function Control master (global) interrupt (1=enabled; 0=disabled) Control external interrupt (1=enabled; 0=disabled) Control external interrupt (1=enabled; 0=disabled) Control timer/event counter interrupt (1=enabled; 0=disabled) External interrupt request flag (1=active; 0=inactive) External interrupt request flag (1=active; 0=inactive) Internal timer/event counter request flag (1=active; 0=inactive) Unused bit, read Control time base interrupt (1=enabled; 0:disabled) Control real time clock interrupt (1=enabled; 0:disabled) Unused bit, read Time base request flag (1=active; 0=inactive) Real time clock request flag (1=active; 0=inactive) Unused bit, read INTC Register time base interrupt initialized setting time base interrupt request flag (TBF;bit INTC1), that caused regular time base signal. After interrupt enabled, stack full, set, subroutine call location occurs. related interrupt request flag (TBF) reset cleared disable further interrupts. real time clock interrupt initialized setting real time clock interrupt request flag (RTF;bit INTC1), that caused regular real time clock signal. After interrupt enabled, stack full, set, subroutine call location occurs. related interrupt request flag (RTF) reset cleared disable further interrupts. During execution interrupt subroutine, other interrupt acknowledgments held until instruction executed related interrupt control both stack full). return from interrupt subroutine, invoked. RETI sets enables interrupt service, does not. Interrupts occurring interval between rising edges consecutive pulses serviced latter pulses corresponding interrupts enabled. case simultaneous requests, priorities following table apply. These masked resetting bit. Interrupt Source External interrupt External interrupt Timer/event counter overflow Time base interrupt Real time clock interrupt Priority Vector
timer/event counter interrupt request flag (TF), external interrupt request flag (EIF1), external interrupt request flag (EIF0), enable timer/event counter interrupt (ETI), enable external interrupt (EEI1), enable external interrupt (EEI0), enable master interrupt (EMI) make Interrupt Control register (INTC0) which located RAM. real time clock interrupt request flag (RTF), time base interrupt request flag (TBF), enable real time clock interrupt (ERTI), enable time base interrupt (ETBI), constitute Interrupt Control register (INTC1) which located RAM. EMI, EEI0, EEI1, ETI, ETBI, ERTI used control enable/disable status interrupts. These bits prevent requested interrupt from being serviced. Once interrupt request flags (RTF, TBF, EIF1, EIF0) set, they remain INTC1 INTC0 respectively until interrupts serviced cleared software instruction. recommended that program within interrupt subroutine. because interrupts often occur unpredictable manner require serviced immediately some applications. this time, only stack left, enabling interrupt well controlled, operation interrupt subroutine damage original control sequence.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Oscillator Configuration device provides three oscillator circuits system clocks, i.e., oscillator, crystal oscillator 32768Hz crystal oscillator, determined options. matter what type oscillator selected, signal used system clock. HALT mode stops system oscillator crystal oscillator only) ignores external signal conserve power. 32768Hz crystal oscillator (system oscillator) still runs HALT mode. 32768Hz crystal oscillator selected system oscillator, system oscillator stopped; instruction execution stopped. Since (used system oscillator oscillator) also designed timing purposes, internal timing (RTC, time base, WDT) operation still runs even system enters HALT mode. three oscillators, oscillator used, external resistor between OSC1 required, range resistance should from 30kW 750kW HT49R30A-1/HT49C30-1 from 560kW HT49C30L. system clock, divided available OSC2 with pull-high resistor, which used synchronize external logic. oscillator provides most cost effective solution. However, frequency oscillation vary with VDD, temperature, chip itself process variations. therefore, suitable timing sensitive operations where accurate oscillator frequency desired. other hand, crystal oscillator selected, crystal across OSC1 OSC2 needed provide feedback phase shift required oscillator, other external components required. resonator connected between OSC1 OSC2 replace crystal frequency reference, external capacitors OSC1 OSC2 required. There another oscillator circuit designed real time clock. this case, only 32.768kHz crystal oscillator applied. crystal should connected between OSC3 OSC4. oscillator circuit controlled oscillate quickly setting (bit RTCC). recommended turn quick oscillating function upon power then turn after seconds. oscillator free running on-chip oscillator, external components required. Although system enters power down mode, system clock stops, oscillator still works with period approximately 65ms@5V. oscillator disabled options conserve power. Watchdog Timer clock source implemented dedicated oscillator (WDT oscillator) instruction clock (system clock/4) real time clock oscillator (RTC oscillator). timer designed prevent software malfunction sequence from jumping unknown location with unpredictable results. disabled options. disabled, executions related lead operation. time-out period fS/215~fS/216. clock source chooses internal oscillator, time-out period vary with temperature, VDD, process variations. other hand, clock source selects instruction clock instruction executed, stop counting lose protecting purpose, logic only restarted external logic. When device operates noisy environment, using on-chip oscillator (WDT OSC) strongly recommended, since HALT stop system clock. overflow under normal operation initializes sets status HALT mode, overflow initializes only reset zero. clear contents WDT, there three methods adopted, i.e., external reset level RES), software instruction, instruction. There types software instructions; other these types instruction, only type instruction active time depending options times selection option. selected (i.e., times equal one), execution instruction clears WDT. case that chosen (i.e., times equal two), these instructions have executed clear WDT; otherwise, reset chip time-out.
illa
illa
illa
System Oscillator Rev. 1.50 December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Multi-function Timer device provides multi-function timer WDT, time base with different time-out periods. multi-function timer consists 8-stage divider 7-bit prescaler, with clock source coming from instruction clock (i.e., system clock divided multi-function timer also provides selectable frequency signal (ranges from fS/22 fS/28) driver circuits, selectable frequency signal (ranges from fS/22 fS/29) buzzer output options. recommended select near 4kHz signal driver circuits proper display. Time Base time base offers periodic time-out period generate regular internal interrupt. time-out period ranges from fS/212 fS/215 selected options. time base time-out occurs, related interrupt request flag (TBF; INTC1) set. interrupt enabled, stack full, subroutine call location occurs. Real Time Clock real time clock (RTC) operated same manner time base that used supply regular internal interrupt. time-out period ranges from fS/28 fS/215 software programming Writing data RT2, (bit2, RTCC;09H) yields various time-out periods. time-out occurs, related interrupt request flag (RTF;bit INTC1) set. interrupt enabled, stack full, subroutine call location occurs. real time clock time-out signal also applied clock source timer/event counter getting longer time-out period. Note: Clock Divided Factor 210* 211*
recommended
Watchdog Timer
Time Base
Real Time Clock
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Power Down Operation HALT HALT mode initialized instruction results following.
system oscillator turns
Reset There three ways which reset occur.
reset during normal operation reset during HALT time-out reset during normal operation
oscillator keeps running oscillator real time clock selected).
contents on-chip registers
remain unchanged.
cleared start recounting
clock source from oscillator real time clock oscillator).
ports maintain their original status. flag flag cleared. driver still running
time-out during HALT differs from other chip reset conditions, perform that resets only leaves other circuits their original state. Some registers remain unaffected during other reset conditions. Most registers reset once reset conditions met. Examining flags, program distinguish between different
selected). system quits HALT mode external reset, interrupt, external falling edge signal port overflow. external reset causes device initialization, overflow performs After examining flags, reason chip reset determined. flag cleared system power-up executing instruction, executing instruction. other hand, flag time-out occurs, causes wake-up that only resets (Program Counter) leaves others their original state. port wake-up interrupt methods considered continuation normal execution. Each port independently selected wake device options. Awakening from port stimulus, program resumes execution next instruction. other hand, awakening from interrupt, sequences occur. related interrupt disabled interrupt enabled stack full, program resumes execution next instruction. interrupt enabled, stack full, regular interrupt response takes place. When interrupt request flag before entering status, system cannot awaken using that interrupt. wake-up events occur, takes 1024 tSYS (system clock period) resume normal operation. other words, dummy period inserted after wake-up. wake-up results from interrupt acknowledgment, actual interrupt subroutine execution delayed more than cycle. However, Wake-up results next instruction execution, execution will performed immediately after dummy period finished. minimize power consumption, pins should carefully managed before entering HALT status.
Reset Circuit Note: Make length wiring, which connected short possible, avoid noise interference. RESET Conditions reset during power-up reset during normal operation Wake-up HALT time-out during normal operation Wake-up HALT
Note:
stands unchanged
guarantee that system oscillator started stabilized, (System Start-up Timer) provides extra-delay 1024 system clock pulses when system awakes from HALT state. Awaking from HALT state, delay added. extra option load time delay added during reset power
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
functional unit chip reset status shown below. Interrupt Prescaler, Divider WDT, RTC, Time Base Timer/Event Counter Input/output Ports 000H Disabled Cleared Cleared. After master reset, starts counting Input mode Points stack
Reset Timing Chart
Reset Configuration states registers summarized below: Register TMRC Program Counter TBLP TBLH STATUS INTC0 INTC1 RTCC Note: Reset (Power xxxx xxxx 0000 1-0000H -xxx xxxx -xxx xxxx xxxx xxxx xxxx xxxx xxxx xxxx -000 0000 0111 1111 1111 stands warm reset stands unchanged stands unknown Time-out Reset (Norma Operation) (Normal Operation) xxxx xxxx 0000 1-0000H -uuu uuuu -uuu uuuu uuuu uuuu uuuu uuuu uuuu uuuu -000 0000 0111 1111 1111 xxxx xxxx 0000 1-0000H -uuu uuuu -uuu uuuu uuuu uuuu uuuu uuuu uuuu uuuu -000 0000 0111 1111 1111 Reset (HALT) xxxx xxxx 0000 1-0000H -uuu uuuu -uuu uuuu uuuu uuuu uuuu uuuu uuuu uuuu -000 0000 0111 1111 1111 Time-out (HALT)* uuuu uuuu uuuu u-0000H -uuu uuuu -uuu uuuu uuuu uuuu uuuu uuuu uuuu uuuu -uuu uuuu uuuu uuuu uuuu
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Timer/Event Counter timer/event counters implemented device. contains 8-bit programmable count-up counter. timer/event counter clock source come from system clock system clock/4 time-out signal external source. System clock source system clock/4 selected options. Using external clock input allows user count external events, measure time internals pulse widths, generate accurate time base. While using internal clock allows user generate accurate time base. There registers related timer/event counter, i.e., ([0DH]) TMRC ([0EH]). There also physical registers which mapped location; writing places starting value timer/event counter preload register, while reading yields contents timer/event counter. TMRC timer/event counter control register used define some options. bits define operation mode. event count mode used count external events, which means that clock source from external pin. timer mode functions normal timer with clock source coming from internal selected clock source. Finally, pulse width measurement mode used count high level duration external signal TMR, counting based internal selected clock source. event count timer mode, timer/event counter starts counting current contents timer/event counter ends FFH. Once overflow occurs, counter reloaded from timer/event counter preload register, generates interrupt request flag (TF; INTC0). pulse width measurement mode with values bits equal one, after received transient from high high will start counting until returns original level resets TON. measured result remains timer/event counter even activated transient occurs again. other words, only cycle measurement made until set. cycle measurement will re-function long receives further transient pulse. this operation mode, timer/event counter begins counting according logic level transient edges. case counter overflows, counter reloaded from timer/event counter preload register issues interrupt request, other modes, i.e., event timer modes. enable counting operation, Timer (TON;bit TMRC) should pulse width measurement mode, automatically cleared after measurement cycle completed. other modes, only reset instructions. overflow Timer/Event Counter wake-up sources also applied (Programmable Frequency Divider) output options. matter what operation mode writing disables related interrupt service. When function selected, executing instruction enable output executing instruction disable output. case timer/event counter condition, writing data timer/event counter preload register also reloads that data timer/event counter. timer/event counter turn data written timer/event counter kept only timer/event counter preload register. timer/event counter still continues operation until overflow occurs. When timer/event counter (reading TMR) read, clock blocked avoid errors. this results counting error, blocking clock should taken into account programmer.
Timer/Event Counter
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Label (TMRC) Bits Unused bit, read define TMR0 active edge timer/event counter (0=active high; 1=active high low) enable/disable timer counting (0=disabled; 1=enabled) multiplexer control inputs select timer/event counter clock source (0=RTC outputs; system clock system clock/4) define operating mode (TM1, TM0) Event count mode (External clock) Timer mode (Internal clock) Pulse Width measurement mode (External clock) Unused TMRC Register strongly recommended load desired value into register first, then turn related timer/event counter proper operation, because initial value unknown. timer/event scheme, programmer should special attention instruction enable then disable timer first time, whenever there need timer/event function, avoid unpredictable result. After this procedure, timer/event function operated normally. Input/Output Ports There 8-bit bidirectional input/output port, 6-bit input port device, labeled which mapped [12H], [14H] RAM, respectively. PA0~PA3 configured CMOS (output) NMOS (input/output) with without pull-high resistor options. PA4~PA7 always pull-high NMOS (input/output). choose NMOS (input), each port (PA0~PA7) configured wake-up input. only used input operation. ports input operation (PA, PB), non-latched, that inputs should ready rising edge instruction (m=12H 14H). output operation, data latched remain unchanged until output latch rewritten. When structures open drain NMOS type, should noted that, before reading data from pads, should written related bits disable NMOS device. That executing first instruction (i=0~7 disable related NMOS device, then stable data. After chip reset, these input lines remain high level left floating options). Each these output latches cleared [m], (m=12H) instruction. Some instructions first input data then follow output operations. example, read entire port states into CPU, execute defined operations (bit-operation), then write results back latches accumulator. When line used line, related line options should configured NMOS with without pull-high resistor. Once line selected CMOS output, function cannot used. input state line read from related pad. When configured NMOS with without pull-high resistor, should careful when applying read-modify-write instruction Since read-modify-write will read entire port state (pads state) firstly, execute specified instruction then write result port data register. When read operation executed, fault state (caused load effect floating state) read. Errors will then occur. There three function pins that share with port: PA0/BZ, PA1/BZ PA3/PFD. buzzer driving output pair programmable frequency divider output. user wants BZ/BZ function, related port should CMOS output. buzzer output signals controlled data registers defined following table. Data Register Data Register PA0/PA1 State PA0=BZ, PA1=BZ PA0=BZ, PA1=0 PA0=0, PA1=0 Function
Note: stands unused
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December 2003
HT49R30A-1/HT49C30-1/HT49C30L
output signal function controlled data register timer/event counter state. output signal frequency also dependent timer/event counter overflow period. definitions control signal output frequency listed following table. Timer Note: Timer Preload Value stands unused stands unknown
Data Register
State
Frequency
Input/Output Ports Display Memory device provides area embedded data memory display. This area located from Bank Bank pointer (BP; located RAM) switch between display memory. When data written into 40H~52H will effect display. When cleared data written into 40H~52H means access general purpose data
Input Ports memory. display memory read written only indirect addressing mode using MP1. When data written into display data area, automatically read driver which then generates corresponding driving signals. turn display off, written corresponding display memory, respectively. figure illustrates mapping between display memory pattern device.
Display Memory
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Driver Output output number driver device option (i.e., duty, duty duty). bias type driver type type HT49R30A-1/HT49C30-1 while bias type driver only type HT49C30L. bias type selected, external capacitor required. bias type selected, capacitor mounted between pins needed. driver bias voltage HT49R30A-1/HT49C30-1 bias bias option, while driver bias
voltage HT49C30L only bias. bias selected, capacitor mounted between ground required. bias selected, capacitors needed pins. bias power supply selection HT49R30A-1/ HT49C30-1: There types selections: bias bias. bias type selection HT49R30A-1/HT49C30-1: This option determine what kind bias selected, type type.
Driver Output (1/3 Duty, Bias, Type)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Driver Output Voltage Reset/Detector Functions HT49R30A-1/HT49C30-1 There voltage detector (LVD) voltage reset circuit (LVR) implemented microcontroller. These functions enabled/disabled options. Once options enabled, user RTCC.3 enable/disable (1/0) circuit read detector status (0/1) from RTCC.5; otherwise, function disabled. Register RTCC (09H) Label RT0~RT2 LVDC* QOSC LVDO* Read/Write same effect function with external signal which performs chip reset. During HALT state, disabled. definitions RTCC register listed following table.
Reset 111B
Function multiplexer control inputs select real clock prescaler output enable/disable (1/0) 32768Hz quick start-up oscillating 0/1: quickly/slowly start detection output (1/0) voltage detected Unused bit, read
Note: HT49R30A-1/HT49C30-1 Rev. 1.50 December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Options following shows options device. these options should defined order ensure proper functioning system. Options type selection. This option determine whether crystal 32768Hz crystal oscillator chosen system clock. Clock source selection. Time Base. There three types selection: system clock/4 OSC. enable/disable selection. enabled disabled options. times selection. This option defines clear instruction. means that clear WDT. means that both have been executed, only then will cleared. Time Base time-out period selection. Time Base time-out period ranges from clock/212 clock/215 means clock source selected options. Buzzer output frequency selection. There eight types frequency signals buzzer output: Clock/22~Clock/29. means clock source selected options. Wake-up selection. This option defines wake-up capability. External pins only) have capability wake-up chip from HALT falling edge. Pull-high selection. This option decide whether pull-high resistance visible PA0~PA3. PA4~PA7 always pull-high) PA0~PA3 CMOS NMOS selection. structure PA0~PA3 bits selected CMOS NMOS individually. When CMOS selected, related pins only used output operations. When NMOS selected, related pins used input output operations. (PA4~PA7 always NMOS) Clock source selection timer/event counter. There types selection: system clock system clock/4. pins share with other functions selection. PA0/BZ, PA1/BZ: pins buzzer outputs. PA3/PFD: pins output. common selection. There three types selection: common (1/2 duty) common (1/3 duty) common (1/4 duty). common selected, segment output will common output. bias power supply selection. There types selection: bias bias HT49R30A-1/HT49C30-1. bias type selection. This option determine what kind bias selected, type type HT49R30A-1/HT49C30-1, type HT49C30L. driver clock selection. There seven types frequency signals driver circuits: fS/22~fS/28. means clock source selection options. ON/OFF HALT selection selection. enable disable options HT49R30A-1/HT49C30-1 selection. enable disable options HT49R30A-1/HT49C30-1
Rev. 1.50
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HT49R30A-1/HT49C30-1/HT49C30L
Application Circuits
illa
illa
illa
following table shows value according different crystal values. Crystal Resonator 4MHz Crystal 4MHz Resonator pin) 4MHz Resonator pin) 3.58MHz Crystal 3.58MHz Resonator pin) 2MHz Crystal Resonator pin) 1MHz Crystal 480kHz Resonator 455kHz Resonator 429kHz Resonator 10pF 25pF 25pF 35pF 300pF 300pF 300pF 10kW 12kW 12kW 10kW 10kW 10kW 27kW 9.1kW 10kW 10kW
Note:
resistance capacitance reset circuit should designed such ensure that stable remains within valid operating voltage range before bringing high. Make length wiring, which connected short possible, avoid noise interference.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
illa
illa
illa
Note:
resistance capacitance reset circuit should designed such ensure that stable remains within valid operating voltage range before bringing high.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Instruction Summary
Mnemonic Arithmetic A,[m] ADDM A,[m] A,[m] ADCM A,[m] A,[m] SUBM A,[m] A,[m] SBCM A,[m] data memory data memory immediate data data memory with carry data memory with carry Subtract immediate data from Subtract data memory from Subtract data memory from with result data memory Subtract data memory from with carry Subtract data memory from with carry result data memory Decimal adjust addition with result data memory 1(1) 1(1) 1(1) 1(1) 1(1) Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Z,C,AC,OV Description Instruction Cycle Flag Affected
Logic Operation A,[m] A,[m] A,[m] ANDM A,[m] A,[m] XORM A,[m] CPLA data memory data memory Exclusive-OR data memory data memory data memory Exclusive-OR data memory immediate data immediate data Exclusive-OR immediate data Complement data memory Complement data memory with result 1(1) 1(1) 1(1) 1(1)
Increment Decrement INCA DECA Rotate RRCA RLCA Data Move A,[m] [m],A Operation [m].i [m].i Clear data memory data memory 1(1) 1(1) None None Move data memory Move data memory Move immediate data 1(1) None None None Rotate data memory right with result Rotate data memory right Rotate data memory right through carry with result Rotate data memory right through carry Rotate data memory left with result Rotate data memory left Rotate data memory left through carry with result Rotate data memory left through carry 1(1) 1(1) 1(1) 1(1) None None None None Increment data memory with result Increment data memory Decrement data memory with result Decrement data memory 1(1) 1(1)
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HT49R30A-1/HT49C30-1/HT49C30L
Mnemonic Branch addr [m].i [m].i SIZA SDZA CALL addr RETI Table Read TABRDC TABRDL Miscellaneous WDT1 WDT2 SWAP SWAPA HALT Note: operation Clear data memory data memory Clear Watchdog Timer Pre-clear Watchdog Timer Pre-clear Watchdog Timer Swap nibbles data memory Swap nibbles data memory with result Enter power down mode 1(1) 1(1) 1(1) None None None TO,PDF TO(4),PDF(4) TO(4),PDF(4) None None TO,PDF Read code (current page) data memory TBLH Read code (last page) data memory TBLH 2(1) 2(1) None None Jump unconditionally Skip data memory zero Skip data memory zero with data movement Skip data memory zero Skip data memory zero Skip increment data memory zero Skip decrement data memory zero Skip increment data memory zero with result Skip decrement data memory zero with result Subroutine call Return from subroutine Return from subroutine load immediate data Return from interrupt 1(2) 1(2) 1(2) 1(2) 1(3) 1(3) 1(2) 1(2) None None None None None None None None None None None None None Description Instruction Cycle Flag Affected
Immediate data Data memory address Accumulator number bits addr: Program memory address Flag affected Flag affected
loading register occurs, execution cycle instructions will delayed more cycle (four system clocks). skipping next instruction occurs, execution cycle instructions will delayed more cycle (four system clocks). Otherwise original instruction cycle unchanged. flags affected execution status. Watchdog Timer cleared executing WDT1 WDT2 instruction, cleared. Otherwise flags remain unchanged.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Instruction Definition
A,[m] Description Operation Affected flag(s) ADCM A,[m] Description Operation Affected flag(s) A,[m] Description Operation Affected flag(s) Description Operation Affected flag(s) ADDM A,[m] Description Operation Affected flag(s) data memory carry accumulator contents specified data memory, accumulator carry flag added simultaneously, leaving result accumulator. ACC+[m]+C
accumulator carry data memory contents specified data memory, accumulator carry flag added simultaneously, leaving result specified data memory. ACC+[m]+C
data memory accumulator contents specified data memory accumulator added. result stored accumulator. ACC+[m]
immediate data accumulator contents accumulator specified data added, leaving result accumulator. ACC+x
accumulator data memory contents specified data memory accumulator added. result stored data memory. ACC+[m]
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
A,[m] Description Operation Affected flag(s) Description Operation Affected flag(s) ANDM A,[m] Description Operation Affected flag(s) CALL addr Description Logical accumulator with data memory Data accumulator specified data memory perform bitwise logical_AND operation. result stored accumulator.
Logical immediate data accumulator Data accumulator specified data perform bitwise logical_AND operation. result stored accumulator.
Logical data memory with accumulator Data specified data memory accumulator perform bitwise logical_AND operation. result stored data memory.
Subroutine call instruction unconditionally calls subroutine located indicated address. program counter increments once obtain address next instruction, pushes this onto stack. indicated address then loaded. Program execution continues with instruction this address. Stack PC+1 addr
Operation
Affected flag(s)
Description Operation Affected flag(s)
Clear data memory contents specified data memory cleared
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
[m].i Description Operation Affected flag(s) Description Operation Clear data memory specified data memory cleared [m].i
Clear Watchdog Timer cleared (clears WDT). power down (PDF) time-out (TO) cleared.
Affected flag(s)
WDT1 Description
Preclear Watchdog Timer Together with WDT2, clears WDT. also cleared. Only execution this instruction without other preclear instruction just sets indicated flag which implies this instruction been executed flags remain unchanged. 00H*
Operation
Affected flag(s)
WDT2 Description
Preclear Watchdog Timer Together with WDT1, clears WDT. also cleared. Only execution this instruction without other preclear instruction, sets indicated flag which implies this instruction been executed flags remain unchanged. 00H*
Operation
Affected flag(s)
Description Operation Affected flag(s)
Complement data memory Each specified data memory logically complemented complement). Bits which previously contained changed vice-versa.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
CPLA Description Complement data memory place result accumulator Each specified data memory logically complemented complement). Bits which previously contained changed vice-versa. complemented result stored accumulator contents data memory remain unchanged. Description
Operation Affected flag(s)
Decimal-Adjust accumulator addition accumulator value adjusted (Binary Coded Decimal) code. accumulator divided into nibbles. Each nibble adjusted code internal carry (AC1) will done nibble accumulator greater than adjustment done adding original value original value greater than carry set; otherwise original value remains unchanged. result stored data memory only carry flag affected. ACC.3~ACC.0 AC=1 then [m].3~[m].0 (ACC.3~ACC.0)+6, AC1=AC else [m].3~[m].0 (ACC.3~ACC.0), AC1=0 ACC.7~ACC.4+AC1 then [m].7~[m].4 ACC.7~ACC.4+6+AC1,C=1 else [m].7~[m].4 ACC.7~ACC.4+AC1,C=C
Operation
Affected flag(s)
Description Operation Affected flag(s)
Decrement data memory Data specified data memory decremented [m]-1
DECA Description Operation Affected flag(s)
Decrement data memory place result accumulator Data specified data memory decremented leaving result accumulator. contents data memory remain unchanged. [m]-1
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
HALT Description Enter power down mode This instruction stops program execution turns system clock. contents registers retained. prescaler cleared. power down (PDF) time-out (TO) cleared. PC+1 Description Operation Affected flag(s) INCA Description Operation Affected flag(s) addr Description Operation Affected flag(s) A,[m] Description Operation Affected flag(s) Directly jump program counter replaced with directly-specified address unconditionally, control passed this destination.
Operation
Affected flag(s)
Increment data memory Data specified data memory incremented [m]+1
Increment data memory place result accumulator Data specified data memory incremented leaving result accumulator. contents data memory remain unchanged. [m]+1
Move data memory accumulator contents specified data memory copied accumulator.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Description Operation Affected flag(s) [m],A Description Operation Affected flag(s) Description Operation Affected flag(s) A,[m] Description Operation Affected flag(s) Description Operation Affected flag(s) A,[m] Description Operation Affected flag(s) operation operation performed. Execution continues with next instruction. PC+1 Move immediate data accumulator 8-bit data specified code loaded into accumulator.
Move accumulator data memory contents accumulator copied specified data memory (one data memories).
Logical accumulator with data memory Data accumulator specified data memory (one data memories) perform bitwise logical_OR operation. result stored accumulator.
Logical immediate data accumulator Data accumulator specified data perform bitwise logical_OR operation. result stored accumulator.
Logical data memory with accumulator Data data memory (one data memories) accumulator perform bitwise logical_OR operation. result stored data memory.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Description Operation Affected flag(s) Description Operation Return from subroutine program counter restored from stack. This 2-cycle instruction. Stack
Return place immediate data accumulator program counter restored from stack accumulator loaded with specified 8-bit immediate data. Stack
Affected flag(s)
RETI Description Operation
Return from interrupt program counter restored from stack, interrupts enabled setting bit. enable master (global) interrupt bit. Stack
Affected flag(s)
Description Operation
Rotate data memory left contents specified data memory rotated left with rotated into [m].(i+1) [m].i; [m].i:bit data memory (i=0~6) [m].0 [m].7
Affected flag(s)
Description Operation
Rotate data memory left place result accumulator Data specified data memory rotated left with rotated into leaving rotated result accumulator. contents data memory remain unchanged. ACC.(i+1) [m].i; [m].i:bit data memory (i=0~6) ACC.0 [m].7
Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Description Operation Rotate data memory left through carry contents specified data memory carry flag rotated left. replaces carry bit; original carry flag rotated into position. [m].(i+1) [m].i; [m].i:bit data memory (i=0~6) [m].0 [m].7 RLCA Description
Affected flag(s)
Rotate left through carry place result accumulator Data specified data memory carry flag rotated left. replaces carry original carry flag rotated into position. rotated result stored accumulator contents data memory remain unchanged. ACC.(i+1) [m].i; [m].i:bit data memory (i=0~6) ACC.0 [m].7
Operation
Affected flag(s)
Description Operation
Rotate data memory right contents specified data memory rotated right with rotated [m].i [m].(i+1); [m].i:bit data memory (i=0~6) [m].7 [m].0
Affected flag(s)
Description Operation
Rotate right place result accumulator Data specified data memory rotated right with rotated into leaving rotated result accumulator. contents data memory remain unchanged. ACC.(i) [m].(i+1); [m].i:bit data memory (i=0~6) ACC.7 [m].0
Affected flag(s)
Description Operation
Rotate data memory right through carry contents specified data memory carry flag together rotated right. replaces carry bit; original carry flag rotated into position. [m].i [m].(i+1); [m].i:bit data memory (i=0~6) [m].7 [m].0
Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
RRCA Description Rotate right through carry place result accumulator Data specified data memory carry flag rotated right. replaces carry original carry flag rotated into position. rotated result stored accumulator. contents data memory remain unchanged. ACC.i [m].(i+1); [m].i:bit data memory (i=0~6) ACC.7 [m].0 A,[m] Description Operation Affected flag(s) SBCM A,[m] Description Operation Affected flag(s) Description
Operation
Affected flag(s)
Subtract data memory carry from accumulator contents specified data memory complement carry flag subtracted from accumulator, leaving result accumulator. ACC+[m]+C
Subtract data memory carry from accumulator contents specified data memory complement carry flag subtracted from accumulator, leaving result data memory. ACC+[m]+C
Skip decrement data memory contents specified data memory decremented result next instruction skipped. result following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip ([m]-1)=0, ([m]-1)
Operation Affected flag(s)
SDZA Description
Decrement data memory place result ACC, skip contents specified data memory decremented result next instruction skipped. result stored accumulator data memory remains unchanged. result following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip ([m]-1)=0, ([m]-1)
Operation Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Description Operation Affected flag(s) [m]. Description Operation Affected flag(s) Description data memory Each specified data memory
data memory specified data memory [m].i
Skip increment data memory contents specified data memory incremented result following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip ([m]+1)=0, ([m]+1)
Operation Affected flag(s)
SIZA Description
Increment data memory place result ACC, skip contents specified data memory incremented result next instruction skipped result stored accumulator. data memory remains unchanged. result following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip ([m]+1)=0, ([m]+1)
Operation Affected flag(s)
[m].i Description
Skip data memory specified data memory next instruction skipped. data memory following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip
Operation Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
A,[m] Description Operation Affected flag(s) SUBM A,[m] Description Operation Affected flag(s) Description Operation Affected flag(s) SWAP Description Operation Affected flag(s) SWAPA Description Operation Subtract data memory from accumulator specified data memory subtracted from contents accumulator, leaving result accumulator. ACC+[m]+1
Subtract data memory from accumulator specified data memory subtracted from contents accumulator, leaving result data memory. ACC+[m]+1
Subtract immediate data from accumulator immediate data specified code subtracted from contents accumulator, leaving result accumulator. ACC+x+1
Swap nibbles within data memory low-order high-order nibbles specified data memory data memories) interchanged. [m].3~[m].0 [m].7~[m].4
Swap data memory place result accumulator low-order high-order nibbles specified data memory interchanged, writing result accumulator. contents data memory remain unchanged. ACC.3~ACC.0 [m].7~[m].4 ACC.7~ACC.4 [m].3~[m].0
Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Description Skip data memory contents specified data memory following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip [m]=0
Operation Affected flag(s)
Description
Move data memory ACC, skip contents specified data memory copied accumulator. contents following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip [m]=0
Operation Affected flag(s)
[m].i Description
Skip data memory specified data memory following instruction, fetched during current instruction execution, discarded dummy cycle replaced proper instruction cycles). Otherwise proceed with next instruction cycle). Skip [m].i=0
Operation Affected flag(s)
TABRDC Description Operation
Move code (current page) TBLH data memory byte code (current page) addressed table pointer (TBLP) moved specified data memory high byte transferred TBLH directly. code (low byte) TBLH code (high byte)
Affected flag(s)
TABRDL Description Operation
Move code (last page) TBLH data memory byte code (last page) addressed table pointer (TBLP) moved data memory high byte transferred TBLH directly. code (low byte) TBLH code (high byte)
Affected flag(s)
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
A,[m] Description Operation Affected flag(s) XORM A,[m] Description Operation Affected flag(s) Description Operation Affected flag(s) Logical accumulator with data memory Data accumulator indicated data memory perform bitwise logical Exclusive_OR operation result stored accumulator.
Logical data memory with accumulator Data indicated data memory accumulator perform bitwise logical Exclusive_OR operation. result stored data memory. flag affected.
Logical immediate data accumulator Data accumulator specified data perform bitwise logical Exclusive_OR operation. result stored accumulator. flag affected.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Package Information
48-pin SSOP (300mil) Outline Dimensions
Symbol
Dimensions Min. Nom. Max.
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Product Tape Reel Specifications
Reel Dimensions
SSOP Symbol Description Reel Outer Diameter Reel Inner Diameter Spindle Hole Diameter Slit Width Space Between Flange Reel Thickness Dimensions 330±1.0 100±0.1 13.0+0.5 -0.2 2.0±0.5 32.2+0.3 -0.2 38.2±0.2
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Carrier Tape Dimensions
SSOP Symbol Description Carrier Tape Width Cavity Pitch Perforation Position Cavity Perforation (Width Direction) Perforation Diameter Cavity Hole Diameter Perforation Pitch Cavity Perforation (Length Direction) Cavity Length Cavity Width Cavity Depth Cavity Depth Carrier Tape Thickness Cover Tape Width Dimensions 32.0±0.3 16.0±0.1 1.75±0.1 14.2±0.1 Min. 1.5+0.25 4.0±0.1 2.0±0.1 12.0±0.1 16.20±0.1 2.4±0.1 3.2±0.1 0.35±0.05 25.5
Rev. 1.50
December 2003
HT49R30A-1/HT49C30-1/HT49C30L
Holtek Semiconductor Inc. (Headquarters) No.3, Creation Science-based Industrial Park, Hsinchu, Taiwan Tel: 886-3-563-1999 Fax: 886-3-563-1189 http://www.holtek.com.tw Holtek Semiconductor Inc. (Sales Office) 4F-2, 3-2, YuanQu St., Nankang Software Park, Taipei 115, Taiwan Tel: 886-2-2655-7070 Fax: 886-2-2655-7373 Fax: 886-2-2655-7383 (International sales hotline) Holtek Semiconductor (Shanghai) Inc. Floor, Building No.889, Shan Rd., Shanghai, China Tel: 021-6485-5560 Fax: 021-6485-0313 http://www.holtek.com.cn Holtek Semiconductor (Hong Kong) Ltd. Block 3/F, Industrial Building, 777-779 Cheung Rd., Kowloon, Hong Kong Tel: 852-2-745-8288 Fax: 852-2-742-8657 Holmate Semiconductor, Inc. 46712 Fremont Blvd., Fremont, 94538 Tel: 510-252-9880 Fax: 510-252-9885 http://www.holmate.com Copyright 2003 HOLTEK SEMICONDUCTOR INC. information appearing this Data Sheet believed accurate time publication. However, Holtek assumes responsibility arising from specifications described. applications mentioned herein used solely purpose illustration Holtek makes warranty representation that such applications will suitable without further modification, recommends products application that present risk human life malfunction otherwise. products authorized critical components life support devices systems. Holtek reserves right alter products without prior notification. most up-to-date information, please visit site http://www.holtek.com.tw.
Rev. 1.50
December 2003
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