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| to our customers, old company name in catalogs and other documents on april 1 st , 2010, nec electronics corporation merged with renesas technology corporation, and renesas electronics corporation took over all the business of both companies. therefore, although the old company name remains in this document, it is a valid renesas electronics document. we appreciate your understanding. renesas electronics website: http://www.renesas.com april 1 st , 2010 renesas electronics corporation issued by: renesas electronics corporation (http://www.renesas.com) send any inquiries to http://www.renesas.com/inquiry.
notice 1. all information included in this document is current as of the date this document is issued. such information, however, is subject to change without any prior notice. before purchasing or using any renesas el ectronics products li sted herein, please confirm the latest product information with a renesas electronics sales office. also , please pay regular and careful attention to additional and different information to be disclosed by rene sas electronics such as that disclosed through our website. 2. renesas electronics does not assume any liability for infringeme nt of patents, copyrights, or other intellectual property ri ghts of third parties by or arising from the use of renesas electroni cs products or techni cal information descri bed in this document . no license, express, implied or otherwise, is granted hereby under any patents, copyri ghts or other intell ectual property right s of renesas electronics or others. 3. you should not alter, modify, copy, or otherwise misappropriate any re nesas electronics product, wh ether in whole or in part . 4. descriptions of circuits, software and other related informat ion in this document are provided only to illustrate the operat ion of semiconductor products and application examples. you are fully re sponsible for the incorporation of these circuits, software, and information in the design of your equipment. renesas electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information. 5. when exporting the products or technology described in this doc ument, you should comply with the applicable export control laws and regulations and follow the proc edures required by such laws and re gulations. you should not use renesas electronics products or the technology described in this docum ent for any purpose relating to mil itary applicati ons or use by the military, including but not l imited to the development of weapons of mass de struction. renesas electronics products and technology may not be used for or incor porated into any products or systems whose manufacture, us e, or sale is prohibited under any applicable dom estic or foreign laws or regulations. 6. renesas electronics has used reasonable care in preparing th e information included in this document, but renesas electronics does not warrant that such information is error free. renesas electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein. 7. renesas electronics products ar e classified according to the following three quality grades: ?standard?, ?high quality?, an d ?specific?. the recommended applications for each renesas electronics product de pends on the product?s quality grade, as indicated below. you must check the qua lity grade of each renesas electronics pr oduct before using it in a particular application. you may not use any renesas electronics produc t for any application categorized as ?speci fic? without the prior written consent of renesas electronics. further, you may not use any renesas electronics product for any application for which it is not intended without the prior written consent of renesas electronics. re nesas electronics shall not be in any way liable for any damages or losses incurred by you or third partie s arising from the use of any renesas electronics product for a n application categorized as ?specific? or for which the product is not intende d where you have failed to obtain the prior writte n consent of renesas electronics. the quality grade of each renesas electronics product is ?standard? unless otherwise expressly specified in a renesas electr onics data sheets or data books, etc. ?standard?: computers; office equipmen t; communications e quipment; test and measurement equipment; audio and visual equipment; home electronic a ppliances; machine tools; personal electronic equipmen t; and industrial robots. ?high quality?: transportation equi pment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; an ti- crime systems; safety equipment; and medical equipment not specif ically designed for life support. ?specific?: aircraft; aerospace equipment; submersible repeaters; nuclear reactor control systems; medical equipment or systems for life support (e.g. artificial life support device s or systems), surgical im plantations, or healthcare intervention (e.g. excision, etc.), and any other applicati ons or purposes that pose a di rect threat to human life. 8. you should use the renesas electronics pr oducts described in this document within the range specified by renesas electronics , especially with respect to the maximum ra ting, operating supply voltage range, movement power volta ge range, heat radiation characteristics, installation and other product characteristics. renesas electronics shall have no liability for malfunctions o r damages arising out of the use of renesas electronics products beyond such specified ranges. 9. although renesas electronics endeavors to improve the quality and reliability of its produc ts, semiconductor products have specific characteristics such as the occurrence of failure at a certain rate a nd malfunctions under certain use conditions. fur ther, renesas electronics products are not subject to radiation resistance design. please be sure to implement safety measures to guard them against the possibility of physic al injury, and injury or damage caused by fire in the event of the failure of a renesas electronics product, such as safe ty design for hardware and software in cluding but not limited to redundancy, fire control and malfunction prevention, appropri ate treatment for aging degradation or an y other appropriate measures. because the evaluation of microcomputer software alone is very difficult , please evaluate the safety of the final products or system manufactured by you. 10. please contact a renesa s electronics sales office for details as to environmental matters such as the environmental compatibility of each renesas electronics product. please use renesas electronics products in compliance with all applicable laws and regulations that regul ate the inclusion or use of c ontrolled substances, including wi thout limitation, the eu rohs directive. renesas electronics assumes no liability for damage s or losses occurring as a result of your noncompliance with applicable laws and regulations. 11. this document may not be reproduced or duplicated, in any form, in w hole or in part, without prio r written consent of renes as electronics. 12. please contact a renesa s electronics sales office if you have any questi ons regarding the informat ion contained in this document or renesas electroni cs products, or if you have any other inquiries. (note 1) ?renesas electronics? as used in this document means renesas electronics corporation and also includes its majority- owned subsidiaries. (note 2) ?renesas electronics product(s)? means any product developed or manufactured by or for renesas electronics. � 1989 data sheet mos integrated circuit m pd6124a, 6600a description the m pd6124a and 6600a are 4-bit single-chip microcontrollers for infrared remote controllers for tvs, vcrs, stereos, cassette decks, air conditions, etc. these microcontrollers consist of rom, ram, a 4-bit parallel-processing alu, a programmable timer, key input/ output ports, and transmit output ports. functioning is controlled by a program. a one-time prom, model m pd61p24, to which a program can be written only once is also available. this one-time prom is ideal for evaluation of programs running in a m pd6124a or 6600a, and for small-scale production of such systems. features ? transmitter for programmable infrared remote control- ler ? 19 types of instructions ? instruction execution time: 17.6 m s (with 455-khz ce- ramic resonator) ? program memory (rom) capacity ? m pd6124a: 1002 10 bits ? m pd6600a: 512 10 bits ? data memory (ram) capacity: 32 5 bits ? 9-bit programmable timer: 1 channel ? i/o pins (k i/o ): 8 pins ? input pins (k i ): 4 pins ? serial input pins (s-in): 1 pin ? transmission-in-progress indication pin (s-out): 1 pin ? transmit carrier frequency (rem) f osc /12, f osc /8 ? standby operation (halt/stop mode) ? low power consumption ? current consumption in stop mode (t a = 25 c) ? low-voltage operation m pd6124a: v dd = 2.2 to 5.5 v m pd6600a: v dd = 2.2 to 3.6 v caution to use the nec transmission format, ask nec to supply the custom code. do not use r 0 when using a register as an operand of the branch instruction. 4-bit single-chip microcontroller for remote control transmission document no. u12391ej5v0ds00 (5th edition) (previous no. ic-1927) date published june 1997 n printed in japan the information in this document is subject to change without notice. the mark shows major revised points. m pd6124a, 6600a 2 ordering information part number package m pd6124acs-xxx 20-pin plastic shrink dip (300 mil) m pd6124ags-xxx 20-pin plastic sop (300 mil) m pd6600acs-xxx 20-pin plastic shrink dip (300 mil) m pd6600ags-xxx 20-pin plastic sop (300 mil) remark xxx indicates rom code suffix. pin configuration (top view) k k s-in s-out rem v osc-out osc-in v ac 1 2 3 4 5 6 7 8 9 10 20 19 18 17 16 15 14 13 12 11 k k k k k k k k k k i/o2 i/o3 i/o4 i/o5 i/o6 i/o7 i0 i1 i2 i3 i/o1 i/o0 dd ss m pd6124a, 6600a 3 block diagram i0 i3 k -k l h 32 5 bits ac k i/o0 -k i/o7 s-in rem s-out osc-in osc-out mod 10 bits osc to s-out rom d.p. rom d.p. pc(h) m p x note add dec m p x ram ram cntl (h) cntl (l) sp timer (l) timer (h) acc key in key out(h) key out(l) alu watchdog timer function low- voltage detector circuit pc(l) rom (l) rom (h) note rom capacity depends on the products. differences among products item product name m pd6124a m pd6600a rom capacity 1002 10 bits (mark rom) 512 10 bits (mask rom) ram capacity 32 5 bits i/o pins 8 (k i/o0 - ki/o7 ) s-in pins provided current consumption 2 m a (f osc = stop) (max.) s-in high level input 30 m a current (max.) transmit carrier frequency f osc /12, f osc /8 low-voltage detector provided (reset) circuit supply current v dd = 2.2 to 5.5 v v dd = 2.2 to 3.6 v package 20-pin plastic sop (300 mil) 20-pin plastic shrink dip (300 mil) m pd6124a, 6600a 4 1. program counter (pc) 9 bits : m pd6600a 10 bits : m pd6124a the program counter (pc) is a binary counter, which holds the address information for the program memory. figure 1-1. program counter organization pc 7 pc 6 pc 5 pc 4 pc 3 pc 2 pc 1 pc 0 pc 8 pc 9 pc 7 pc 6 pc 5 pc 4 pc 3 pc 2 pc 1 pc 0 pc 8 pc pc pd6124a (b) pd6600a (a) m m normally, the program counter contents are automatically incremented each time an instruction is executed, according to the number of instruction bytes. when executing a jump instruction (jmp0, jc, jf), the program counter indicates the jump destination. immediate data or the data memory contents are loaded to all or some bits of the pc. when executing the call instruction (call0), the pc contents are incremented (+1) and saved into the stack memory. then, a value needed for each jump instruction will be loaded. when executing the return instruction (ret), the stack memory contents are double incremented (+2) and loaded into the pc. when all clear is input or on reset, the pc contents are cleared to 000h. 2. stack pointer (sp) 2 bits this 2-bit register holds the start address information for the stack area. the stack area is shared with the data memory. the sp contents are incremented, when the call instruction (call0) is executed. they are decremented, when the return instruction (ret) is executed. the stack pointer is cleared to 00b after reset or all clear is input, and indicates the highest address fh for the data memory as the stack area. the figure below shows the relationship for the stack pointer and the data memory area. r c data memory r d r e r f (sp) 11b 10b 01b 00b if the stack pointer overflows or underflows, it is determined that the cpu overflows, and the pc internal reset signal will be generated. m pd6124a, 6600a 5 3. program memory (rom) 512 steps 10 bits : m pd6600a 1002 steps 10 bits : m pd6124a the program memory (rom) is configured in 10 bits steps. it is addressed by the program counter. program and table data are stored in the program memory. figure 3-1. program memory map 000h 0ffh 100h 1ffh test program area pd6124a (b) pd6600a (a) 000h 0ffh 100h 1ffh 200h 2ffh 300h 3e9h 3eah 3ffh m m 4. data memory (ram) 32 words 5 bits the data memory is a ram of 32 words 5 bits. the data memory stores processing data. in some cases, the data memory is processed in 8-bit units. r 0 may be used as the data pointer for the rom. after power application, the ram will be undefined. the ram retains the previous data on reset. figure 4-1. data memory organization 1 r 0 0 r f r b r c spe3 spe2 spe1 spe0 . . . . . . caution avoid using the ram areas r d , r e , and r f in a call routine as much as possible because these areas are also used as stack memory areas (to prevent program hang-up in case the value of the sp is destroyed due to some reason such as noise). when using these ram areas as general-purpose ram areas, be sure to include stack pointer checking in the main routine. 0 0 1 1 0 0 1 1 m pd6124a, 6600a 6 5. data pointer (r 0 ) r 0 (r 10 , r 00 ) for the data memory can serve as the data pointer for the rom. r 0 specifies the low-order 8 bits in the rom address. the high-order 2 bits in the rom address are specified by the control register. table referencing for rom data can be easily executed by calling the rom contents by setting the rom address to the data pointer. on reset or all clear is input, it becomes undefined. figure 5-1. data pointer organization ad 0 ad 1 ad 2 ad 3 ad 4 ad 5 ad 6 ad 7 ad 8 ad 9 note control registers (p ) 1 r 0 r 10 r 00 note m pd6600a: ad 9 = 0 6. accumulator (a) 4 bits the accumulator (a) is a 4-bit register. the accumulator plays a major role in each operation. on reset or all clear is input, it becomes undefined. figure 6-1. accumulator organization a 0 a 1 a 2 a 3 a 7. arithmetic logic unit (alu) 4 bits the arithmetic logic unit (alu) is a 4-bit operation circuit, and executes simple operations, such as arithmetic operations. 8. flags (1) status flag when the status for each pin is checked by the stts instruction, if the condition coincides with the condition specified by the stts instruction, the status flag (f) is set (to 1). on reset or all clear is input, it becomes undefined. (2) carry flag when the inc (increment) instruction or the rl (rotate left) instruction is executed, if a carry is generated from the msb for the accumulator, the carry flag (c) is set (to 1). the carry flag (c) is also set (to 1), if the contents for the accumulator are fh, when the scaf instruction is executed. on reset or all clear is input, it becomes undefined. m pd6124a, 6600a 7 9. system clock generator the system clock generator consists of a resonator, which uses a ceramic resonator (400khz to 500khz). figure 9-1. system clock generator stop mode system clock ? osc-out osc-in in the stop mode (oscillation stop halt instruction), the oscillator in the system clock generator stops its operation, and the system clock ? is stopped. m pd6124a, 6600a 8 10. timer the timer block determines the transmission output pattern. the timer consists of 10 bits, of which 9 bits serve as the 9-bit down counter and the remaining 1 bit serves as the 1-bit latch, which determines the carrier output validity. the 9-bit down counter is decremented (e1) every 8/f osc (s) in synchronization with the machine cycle, after starting down count operation. down counting stops after all of the 9 bits become 0. when down counting is stopped, the signal indicating that the timer operation has stopped, is output. if the cpu is at standby (halt timer) for the timer operation completion, the standby (halt) condition is released and the next instruction will be executed. if the next instruction again sets the value of the down counter, down counting continues without any error (the carrier output of the rem pin is not affected). set the down count time according to the following calculation; (set value (hex) + 1) 8/f osc . setting the value to the timer is done by the timer manipulation instruction. when the down counter is operating, the remote control transmission carrier can be output to the rem pin. whether or not to output the carrier can be selected by the msb for the timer register block. set 1, when outputting the carrier, or 0, when not outputting the carrier. if all the down counter bits become 0, when outputting the carrier, the carrier output will be stopped. when not outputting the carrier, the rem pin output will become low level. a signal in synchronization with the rem output is output to the s-out pin. however, the waveform for the s-out pin is low, when the carrier is being output to the rem pin, or it is high, when the carrier is not being output to the rem pin. if the halt instruction, which initiates the oscillation stop mode, is executed when the down counter is operating, the oscillation stop mode is initiated after down counting is stopped (after 0). timer operation stop/run is controlled by the control register (p 1 ). (refer to 13. control register (p 1 ) .) at reset (all clear) time, the rem pin goes low and s-out pin goes high. all 10 bits of the timer are cleared to 000h. cautions 1. because the timer clock is not synchronized with the carrier output, the pulse width may be shortened at the beginning and end of the carrier output. 2. reset caused by the low-voltage detector circuit causes the s-out pin to output low level. figure 10-1. timer block organization from low-voltage detector (reset) circuit s-out rem carrier (fosc/12, fosc/8) selected by control register clear set by timer mainpulation instruction 9-bit down counter zero detection circuit d of control register p ( timer run/stop ) 21 1/0 msb fosc/8 m pd6124a, 6600a 9 11. pin functions 11.1 k i/o pin (p 0 ) this is the 8-bit i/o pin for key-scan output. when the control register (p 1 ) is set for the input port, the port can be used as an 8-bit input pin. when the port is set for the input mode, all of these pins are pulled down to the v ss level inside the lsi. at reset (all cleared), the value of i/o mode and output latch becomes undefined. figure 11-1. k i/o pin organization k i/o7 k i/o6 k i/o5 k i/o4 k i/o3 k i/o2 k i/o1 k i/o0 p 0 p 10 p 00 (p ) control register 1 11.2 k i/o pull-down resistor configuration v dd v ss cmos n-ch pin pull-down resistor input signal output signal input/output selection n-ch p-ch r when k i/o is set to the input mode, pull-down resistor r is turned on. m pd6124a, 6600a 10 11.3 k i pin (p 12 ) this is the 4-bit pin for key input. all of these pins can be pulled down to the v ss level by mask option. figure 11-2. k i pin organization p 12 k i3 k i2 k i1 k i0 p 2 mask option 11.4 k i pull-down resistor configuration v dd v ss n-ch v ss pin input signal k pull-down resistor switch (mask option) pull-down resistor i p-ch when the pull-down resistor switch is turned on (set 1) by the mask option, pull-down resistor r is turned on. caution when using the pin as the key switch, turn on the pull-down resistor switch by the mask option. m pd6124a, 6600a 11 11.5 s-out pin by going low whenever the carrier frequency is output from the rem pin, the s-out pin indicates that communication is in progress. the s-out pin is cmos output. the s-out pin goes high on reset. 11.6 s-in pin (d 0 bit of p 1 ) to input serial data, use the s-in pin. when control register (p 1 ) is set to serial input mode, the s-in pin is connected as an input to the lsb of the accumulator; the s-in pin can be pulled down to the v ss level by a mask option from within the lsi. in this state, if the rotate-left accumulator instruction (rl a) is executed, the data on the s-in pin is copied to the lsb of the accumulator. if the control register is released from serial input mode, the s-in pin goes into a high-impedance state, but no through current flows internally. when the rl a instruction is executed, the msb is copied to the lsb. at reset (all cleared), the s-in pin goes into a high-impedance state. caution the m pd6123 is not provided with an s-in pin. figure 11-3. configuration of the s-in pin a 3 a 2 a 1 a 0 cy control register s-in mask option m pd6124a, 6600a 12 12. port register (p ) k i/o , k i , and the control register are handled as port registers. the table below shows the relations between the port registers and pins. table 12-1. relations between port registers and pins pin input mode output mode name read write read write on reset k i/o pin status output latch pin status output latch undefined [input mode, output latch] k i pin status e e e input mode s-in pin status is read by rl a instruction when d 0 of p 1 register = 1. high impedance (d 0 of p 1 register = 0) p 10 p 11 p 12 p 00 p 01 p 02 k i/o7-4 k i/o3-0 p 0 p 1 p 2 control register (h) control register (l) k i3-0 p 1 (h) p 0 (l) m pd6124a, 6600a 13 13. control register (p 1 ) the control register contains of 10 bits. the controllable items are shown in table 13-1. table 13-1. control register (p 1 ) (1/2) (a) m pd6124a bit d 9 name test mode e be sure to set 0. 0 1 set value timer d 8 d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 halt d.p. ad mod k i/o 9 d.p. ad 8 rl a a cc 0 ? stop nop f /8 ad =0 9 ad =0 8 osc in run osc stop f /12 ad =1 9 ad =1 8 osc out a 3 s-in d 0 .......................... specifies data to be input to a 0 when the accumulator is shifted to the left. 0: a 3 , 1:s-in d 1 .......................... specifies the status of k i/o , as follows: 0: input mode, 1: output mode d 2 .......................... specifies the status of the timer, as follows: 0: count stop, 1: count execution d 3 .......................... specifies the carrier frequency output from the rem pin. 0: f osc /8, 1: f osc /12 d 4 , d 5 ................. specify the high-order 2 bits of the rom data pointer. d 6 .......................... determines what happen to the oscillation circuit when the halt instruction is executed. 0: oscillation does not stop 1: oscillation stops (stop mode) d 7 .......................... be sure to set this bit to 0. d 8 , d 9 ................. these bits specify test modes. be sure to set them to 0. remark d 0 = d 8 = d 9 = 0 on reset, and the other bits are undefined. m pd6124a, 6600a 14 table 13-1. control register (p 1 ) (2/2) (b) m pd6600a bit d 9 name test mode e be sure to set 0. 0 1 set value timer d 8 d 7 d 6 d 5 d 4 d 3 d 2 d 1 d 0 halt d.p. ad mod k i/o 9 d.p. ad 8 rl a a cc 0 ? stop nop f /8 ad =0 8 osc in run osc stop f /12 ad =1 8 osc out a 3 s-in be sure to set 0. d 0 .......................... specifies data to be input to a 0 when the accumulator is shifted to the left. 0: a 3 , 1:s-in d 1 .......................... specifies the status of k i/o , as follows: 0: input mode, 1: output mode d 2 .......................... specifies the status of the timer, as follows: 0: count stop, 1: count execution d 3 .......................... specifies the carrier frequency output from the rem pin. 0: f osc /8, 1: f osc /12 d 4 .......................... specify the msb of the rom data pointer. d 5 .......................... be sure to reset them to 0. d 6 .......................... determines what happen to the oscillation circuit when the halt instruction is executed. 0: oscillation does not stop 1: oscillation stops (stop mode) d 7 .......................... be sure to set this bit to 0. d 8 , d 9 ................. these bits specify test modes. be sure to set them to 0. remark d 0 = d 8 = d 9 = 0 on reset, and the other bits are undefined. m pd6124a, 6600a 15 14. standby function (halt instruction) the m pd6600a is provided with the standby mode (halt instruction), in order to reduce the power consumption, when not executing the program. clock oscillation can be stopped in the standby mode (stop mode). in the standby mode, the program execution stops. however, the contents of the internal registers and the data memory are all retained. 14.1 stop mode (oscillation stop halt instruction) in the stop mode, the operation of the system clock generator (ceramic resonator oscillation circuit) stops. therefore, operations requiring the system clock will stop. if the halt instruction is executed during timer operation, the program counter stops. the oscillation stop mode will be initiated, after the timer count down operation is completed. 14.2 halt mode (oscillation continue halt instruction) the cpu stops its operation, until the halt release condition is satisfied. the system clock operation continues in this mode. 14.3 standby release conditions (1) s-in input (2) k i/o input (3) k i input (4) timer count down operation completion remark either high level or low level can be specified for setting a release condition by input. table 14-1. standby mode releasing condition d 3 0/1 0 releasing condition: 0 1 timer 01 00 k 0 0 s-in d 2 d 1 d 0 releasing condition 1 0 1 0 i/o k i remarks released when 0. valid only in the in mode. when rl a is selected, the standby mode is always released. 3 ? 0low level detection 1hi g h level detection m pd6124a, 6600a 16 15. ac pin (all clear pin) internal part of the cpu including the program counter can be reset by setting the ac pin to the low level. watchdog timer function a power-on reset function and a cr watchdog timer function, that can be controlled by program, can be realized by connecting a 0.1 m f capacitor across the ac pin and the v ss . v dd 0.1 f m 0.1 f m v v dd v thl t charge mode charge start instruction execute halt instruction immediately before nop. (charge for 0.4 ms or more) discharge mode charge-discharge pattern discharge start instruction discharge starts after the nop instruction execution. (discharge time is about 5 ms from v dd to v thl ) the pattern must be controlled by the program, in such a manner that the c charge level will not go below v thl . caution when the watchdog timer function is not used, switch to charging mode by executing a nop instruction immediately before a halt instruction at the beginning of the program. (be sure to connect the capacitor.) m pd6124a, 6600a 17 16. low-voltage detector (reset) circuit the m pd6124a and 6600a are internally provided with the low-voltage detector (reset) circuit, in order to prevent program hang-up. when v dd goes down to 1 v or below, an internal reset signal is generated. in the reset condition, a low level is output to the s-out pin. reset circuit internal reset signal ac pin to s-out pin caution the low-voltage detector circuit starts operating at a voltage ranging from 1 to 2.2 v. hence, if the supply voltage is 2 v or lower, the program counter may hang up before the low-voltage detector circuit operates. 17. mask options (pla data) the following items can be selected by mask option selection: provide/not provide k i , s-in pin pull-down resistor carrier duty selection (1/2, 1/3) at f osc /12 hang-up detection specification mask option data should be registered at the object code end. bit assignment by switch selection 0 1 2 7 k 0 k all 6 k 0 halt s-in 5 k 0 halt k 4 k duty selection halt k address note i3 i2 i1 i0 i i/o i/o 3 0 2 0 1 s-in pull-down resistor 0 0 msb lsb k i pull-down resistor corresponding portion hang-up detection duty s-in 0 0 note the setting (bit) positions differ from the m pd6125a and 6126a. m pd6124a, 6600a 18 switch for data (1) pull-down resistor when 0 ... not provided (off) when 1 ... provided (on) (2) modulation duty (at f osc /12) when 0 ... 1/2 duty when 1 ... 1/3 duty (3) hang-up detection <1> k i/o all if the switch for hang-up detection k i/o all is set to on (1) by mask option, the system is reset if, in oscillation halt (stop) mode, the k i/o pin is in input mode, or if at least one of the k i/o pins is low (ac pin discharge mode). when 0 ... no reset function (off) when 1 ... reset function (on) caution to use a pin as a key source of a key matrix, be sure to set the switch to on by mask option. figure 17-1. hang-up detection k i/o all configuration diagram v dd to reset circuit hang-up detection k all switch (mask option) k output signal i/o0 k output signal i/o1 k output signal i/o2 k output signal i/o3 k output signal i/o4 k output signal i/o5 k input/output selection i/o k output signal i/o6 k output signal i/o7 i/o <2> halt releasing condition specification (s-in, k i/o , k i ) if the condition specified by mask option to be unused is satisfied in the halt mode, the system is reset. when 0 ... used when 1 ... unused caution be sure to specify the halt mode of the unused releasing condition to be unused (set). m pd6124a, 6600a 19 18. program development tools to develop programs for the m pd6124a and 6600a, an assembler and an emulator for the m pd612x series are available from i.c. corp. for details, contact ic corp. ic corporation 6th barnet gotanda bldg. 1-9-5 higashi-gotanda, shinagawa-ku tel. 03-3447-3793 fax. 03-3440-5606 caution to develop the programs for the m pd6124a and 6600a, use the m pd6124 because the m pd6124a and 6600a are not available as the target devices for assembly and emulation. the upper limit of rom addresses is different in the m pd6124a/6600a and m pd6124. make sure that the program does not exceed 512 steps by checking the end address of the assembly listing after assembling the program. the mask option of the m pd6124a/6600a is the same as that of the m pd6124. 19. ordering rom code <1> to generate the data required for ordering a mask rom, after assembling the program, convert the hex file to a rom file by using the prom utility program "updprom". caution when using "updprom" select "27256" for prom type. <2> confirm that the instruction rom code data is stored in addresses 0 through 7d3h (3ffh in m pd6600a) of the prom. also confirm that the mask option rom code data are stored in addresses 7ff0h through 7ff2h. m pd6124a, 6600a 20 20. instruction set accumulator manipulation instructions anl anl anl anl orl orl orl orl xrl xrl xrl xrl inc rl d00 e00 a00 d10 d30 d31 e10 e30 e31 a10 a30 a31 a13 f13 r 10 r 11 r 12 r 1f r 00 r 01 r 0f r r a, r r a, @r 0 h a, @r 0 l a, #data a, r r a, @r 0 h a, @r 0 l a, #data a, r r a, @r 0 h a, @r 0 l a, #data a a d01 e01 a01 d02 e02 a02 d0f e0f a0f d20 e20 a20 d21 e21 a21 d2f e2f a2f e input/output instructions p a, p , a, a, a, in out anl orl xrl f19 219 d19 e19 a19 p p 11 p p p a p p p p p p p f18 218 d18 e18 a18 p 10 f1a 21a d1a e1a a1z p 12 f39 239 d39 e39 a39 p 01 f38 238 d38 e38 a38 p 00 f3a 23a d3a e3a a3a 02 p out 319 p p 1 p p #data 318 p 0 31a p 2 p 1p and p 0p operate in pair format data transfer instructions mov mov f00 f10 f01 f02 f0f f20 f21 f2f a, r a, @r h r 0 r 10 r 11 r 12 r 1f r 00 r 01 r 0f r r mov f30 a, @r h 0 mov f31 a, #data mov mov 300 301 302 30f r , #data r , @r r r r 0 r 1 r 2 r f r r 320 321 322 32f mov r , a r 200 201 202 20f 220 221 22f 0 r 1r and r 0r operate in pair format m pd6124a, 6600a 21 branch instructions r r r 0 r 1 r 2 r f e jmp0 jc jc jnc jnc jf jf jnf jnf addr addr rr note addr addr addr 411 611 e 631 e 711 e 731 e rr note rr note rr note e e e e 601 621 701 721 602 622 702 722 60f 62f 70f 72f ? pair register jmp0 rr note e e 401 402 40f note r = 1 through f r = 0 canot be used. subroutine instructions addr call0 ret 411 p 1 p p 312 412 p 0 timer/counter manipulation instructions a, t , t, t, mov mov mov mov f1f 21f t 1 t t t a #data @r t 0 e 31f 33f t 0-1 t 0 t f3f 23f other instructions halt #data stts r stts #data scaf nop 00 r 111 131 d13 000 01 r 02 r 0f r 120 121 122 12f 0r m pd6124a, 6600a 22 21. application circuit example v dd v dd key matrix mode select switch infrared led se303 series se313 se307-c se1003-c transmission indication 2sc3616, 3618 2sd1615, 1616 2sc2001 3.0 v 47 f m + 100 pf 100 pf 0.1 f m k i/o1 k i/o0 s-in 1 2 3 4 5 6 7 8 9 10 k i/o2 k i/o3 s-out rem v dd osc-out osc-in v ss ac k i/o4 k i/o5 k i/o6 k i/o7 k i0 k i1 k i2 k i3 pd6124a pd6600a m m 20 19 18 17 16 15 14 13 12 11 caution the ceramic resonator start up capacitor value must be determined, by taking the voltage level and the oscillation start up characteristics for the ceramic resonator into consideration. m pd6124a, 6600a 23 22. electrical specifications (1) m pd6124a electrical specifications absolute maximum ratings (t a =25 c) parameter symbol ratings unit supply voltage v dd e0.3 to +7.0 v input voltage v in e0.3 to v dd + 0.3 v operating ambient temperature t a e20 to +75 c storage temperature t stg e40 to +125 c caution even if one of the parameters exceeds its absolute maximum rating even momentarily, the quality of the product may be degraded. the absolute maximum rating therefore specifies the upper or lower limit of the value at which the product can be used without physical damages. be sure to use the product(s) within the ratings. recommended operating range (t a = e20 to +75 c) parameter symbol min. typ. max. unit supply voltage v dd 2.2 5.5 v oscillation frequency f osc 400 500 khz m pd6124a, 6600a 24 dc characteristics (v dd = 3.0 v, f osc = 455 khz, t a =25 c) parameter symbol conditions min. typ. max. unit supply voltage v dd 2.2 5.5 v current consumption 1 i dd1 f osc = 455 khz 0.3 1.0 ma current consumption 2 i dd2 f osc = stop 2.0 m a rem high level output current i oh1 v o = 1.0 v e5 e8 ma rem low level output current i ol1 v o = 0.3 v 0.5 1.5 2.5 ma s-out high level output current i oh2 v o = 2.7 v e0.3 e1.0 e2.0 ma s-out low level output current i ol2 v o = 0.3 v 1 1.5 ma k i high level input current i ih1 v i = 3.0 v 10 30 m a k i high level input current i ih1' v i = 3.0 v, without pull-down resistor 0.2 m a k i low level input current i il1 v i = 0 v e0.2 m a k i/o high level input current i ih2 v i = 3.0 v 10 30 m a k i/o high level input current i ih2' v i = 3.0 v, without pull-down resistor 0.2 m a k i/o low level input current i il2 v i = 0 v e0.2 m a k i/o high level output current i oh3 v 0 = 2.5 v e1.5 e2.0 e4.0 ma k i/o low level output current i ol3 v 0 = 2.1 v 25 50 100 m a s-in high level input current i ih3 v i = 3.0 v 6 30 m a s-in high level input current i ih3' v i = 3.0 v, without pull-down resistor 0.2 m a s-in low level input current i il3 v i = 0 v e0.2 m a k i high level input voltage v ih1 2.1 3.0 v k i low level input voltage v il1 v i = 3.0 v 0 0.9 v k i/o high level input voltage v ih2 1.3 3.0 v k i/o low level input voltage v il2 0 0.4 v s-in high level input voltage i ih3 1.1 3.0 v s-in low level input voltage i il3 0 0.4 v ac pull-up resistor r 1 v i = 0 v 0.3 3.0 k w ac pull-down resistor r 2 v i = 2.7 v 150 1500 k w ac high level input voltage v ih4 1.8 3.0 v ac low level input voltage v il4 0 1.2 v m pd6124a, 6600a 25 (2) m pd6600a electrical specifications absolute maximum ratings (t a =25 c) parameter symbol ratings unit supply voltage v dd e0.3 to +7.0 v input voltage v in e0.3 to v dd + 0.3 v operating ambient temperature t a e20 to +75 c storage temperature t stg e40 to +125 c caution even if one of the parameters exceeds its absolute maximum rating even momentarily, the quality of the product may be degraded. the absolute maximum rating therefore specifies the upper or lower limit of the value at which the product can be used without physical damages. be sure to use the product(s) within the ratings. recommended operating range (t a = e20 to +75 c) parameter symbol min. typ. max. unit supply voltage v dd 2.2 3.6 v oscillation frequency f osc 400 500 khz m pd6124a, 6600a 26 dc characteristics (v dd = 3.0 v, f osc = 455 khz, t a =25 c) parameter symbol conditions min. typ. max. unit supply voltage v dd 2.2 3.6 v current consumption 1 i dd1 f osc = 455 khz 0.3 1.0 ma current consumption 2 i dd2 f osc = stop 2.0 m a rem high level output current i oh1 v o = 1.0 v e5 e8 ma rem low level output current i ol1 v o = 0.3 v 0.5 1.5 2.5 ma s-out high level output current i oh2 v o = 2.7 v e0.3 e1.0 e2.0 ma s-out low level output current i ol2 v o = 0.3 v 1 1.5 ma k i high level input current i ih1 v i = 3.0 v 10 30 m a k i high level input current i ih1' v i = 3.0 v, without pull-down resistor 0.2 m a k i low level input current i il1 v i = 0 v e0.2 m a k i/o high level input current i ih2 v i = 3.0 v 10 30 m a k i/o high level input current i ih2' v i = 3.0 v, without pull-down resistor 0.2 m a k i/o low level input current i il2 v i = 0 v e0.2 m a k i/o high level output current i oh3 v o = 2.5 v e1.5 e2.0 e4.0 ma k i/o low level output current i ol3 v o = 2.1 v 25 50 100 m a s-in high level input current i ih3 v i = 3.0 v 6 30 m a s-in high level input current i ih3' v i = 3.0 v, without pull-down resistor 0.2 m a s-in low level input current i il3 v i = 0 v e0.2 m a k i high level input voltage v ih1 2.1 3.0 v k i low level input voltage v il1 v i = 3.0 v 0 0.9 v k i/o high level input voltage v ih2 1.3 3.0 v k i/o low level input voltage v il2 0 0.4 v s-in high level input voltage i ih3 1.1 3.0 v s-in low level input voltage i il3 0 0.4 v ac pull-up resistor r 1 v i = 0 v 0.3 3.0 k w ac pull-down resistor r 2 v i = 2.7 v 150 400 1500 k w ac high level input voltage v ih4 1.8 3.0 v ac low level input voltage v il4 0 1.2 v recommended ceramic resonator (common in m pd6124a and 6600a) external capacitance (pf) oscillation voltage range (v) manufacturer product c1 c2 min. max. remarks murata mfg. co., ltd. csb375p 220 220 2.0 3.3 csb400p 220 220 2.0 5.0 csb455e 100 100 2.0 5.0 csb480e 100 100 2.0 5.0 csb500e 100 100 2.0 3.3 toko ceramic co., ltd. crk400 100 100 2.0 6.0 crk455 100 100 2.0 6.0 crk500 100 100 2.0 6.0 m pd6124a, 6600a 27 23. characteristics curve (reference value) (common in m pd6124a and 6600a) 5.0 (t = 25 3?c) a 0 0.2 low-level output voltage v [v] ol i vs v characteristic examples (rem) ol ol 4.0 3.0 2.0 1.0 low-level output current i [ma] ol 0.4 0.6 0.8 1.0 (t = 25 3?c) a i vs v characteristic examples (rem) oh oh e10.0 e5.0 high-level output current i [ma] oh 0 0.5 high-level output voltage v [v] oh 1.0 1.5 2.0 2.5 3.0 (t = 25 3?c) a i vs v characteristic examples (s-out) ol ol (t = 25 3?c) a i vs v characteristic examples (s-out) oh oh 3.0 2.0 low-level output current i [ma] ol 4.0 5.0 1.0 00 e2.0 high-level output current i [ma] oh e1.0 e3.0 0.2 low-level output voltage v [v] ol 0.4 0.6 0.8 1.0 2.0 high-level output voltage v [v] oh 2.2 2.4 2.6 2.8 3.0 (t = 25 3?c) a i vs v characteristic examples (k -k ) ol ol (t = 25 3?c) a i vs v characteristic examples (k -k ) ol ol 50 low-level output current i [ a] ol 00 50 low-level output current i [ a] ol low-level output voltage v [v] ol 1.0 2.0 3.0 low-level output voltage v [v] ol 1.0 2.0 3.0 m m i/o0 i/o3 i/o0 i/o7 v = 3 v dd v = 3 v dd v = 3 v dd v = 3 v dd v = 3 v dd v = 3 v dd m pd6124a, 6600a 28 (t = 25 3?c) a i vs v characteristic examples (k -k ) oh oh i/o0 i/o7 2.2 2.4 2.6 2.8 3.0 e4.0 e3.0 e2.0 e1.0 0 high-level output voltage v [v] oh high-level output current i [ma] oh v = 3 v dd m pd6124a, 6600a 29 24. package drawings 20-pin plastic sop (300 mil) (units in mm) 20 pin plastic sop (300 mil) item millimeters inches a b c e f g h i j 13.00 max. 1.27 (t.p.) 1.8 max. 1.55 7.70.3 0.78 max. 0.12 1.1 5.6 m 0.10.1 n 0.512 max. 0.031 max. 0.0040.004 0.071 max. 0.061 0.3030.012 0.220 0.043 0.005 0.050 (t.p.) p20gm-50-300b, c-4 p3 3 +7 note each lead centerline is located within 0.12 mm (0.005 inch) of its true position (t.p.) at maximum material condition. d 0.40 0.016 +0.10 e0.05 k 0.20 0.008 +0.10 e0.05 l 0.60.2 0.024 0.10 e3 +7 e3 0.004 +0.008 e0.009 +0.004 e0.002 +0.004 e0.003 a c d g p detail of lead end f e b h i l k m j n m 110 11 20 m pd6124a, 6600a 30 20pin plastic shrink dip (300 mil) item millimeters inches notes 1) each lead centerline is located within 0.17 mm (0.007 inch) of its true position (t.p.) at maximum material condition. p20c-70-300b-1 n 0.17 0.007 r 0~15 0~15 a 19.57 max. 0.771 max. b 1.78 max. 0.070 max. f 0.85 min. 0.033 min. g 3.20.3 0.1260.012 j 5.08 max. 0.200 max. k 7.62 (t.p.) 0.300 (t.p.) c 1.778 (t.p.) 0.070 (t.p.) d 0.500.10 0.020 +0.004 e0.005 h 0.51 min. 0.020 min. i 4.31 max. 0.170 max. l 6.5 0.256 m 0.25 0.010 +0.004 e0.003 +0.10 e0.05 2) ltem "k" to center of leads when formed parallel. m r m i h g f dn c b k 110 20 11 a l j m pd6124a, 6600a 31 fig. 20-pin shrink dip for es (reference) (units in mm) 22.8 11.0 20 1 1.2 0.2 4.8 1.06 0.46 f 1.0 f 1.778 3.4 7.8 m pd6124a, 6600a 32 25. recommended soldering conditions it is recommended that m pd6124a and 6600a be soldered under the following conditions. for details on the recommended soldering conditions, refer to information document semiconductor device mounting technology manual (c10535e). for other soldering methods and conditions, consult nec. table 25-1. soldering conditions of surface-mount type m pd6124ags-xxx: 20-pin plastic sop (300 mil) m pd6600ags-xxx: 20-pin plastic sop (300 mil) symbol for soldering method soldering conditions recommended condition infrared reflow package peak temperature: 230 c, time: 30 seconds max. (210 c min.), number of times: 1 ir30-00-1 vps package peak temperature: 215 c, time: 40 seconds max. (200 c min.), number of times: 1 vp15-00-1 wave soldering soldering bath temperature: 260 c max., time: 10 seconds max., number of times: 1 pre-heating temperature: 120 c max. (package surface temperature) ws60-00-1 partial heating pin temperature: 300 c max., time: 3 seconds max. (per side) e caution do not use two or more soldering methods in combination (except the partial heating method). table 25-2. soldering conditions of through-hole type m pd6124acs-xxx: 20-pin plastic shrink dip (300 mil) m pd6600acs-xxx: 20-pin plastic shrink dip (300 mil) soldering method soldering conditions wave soldering (only for pin part) soldering bath temperature: 260 c max., time: 10 seconds max. partial heating pin temperature: 300 c max., time: 30 seconds max. caution the wave soldering must be performed at the pin part only. note that the solder must not be directly contacted to the package body. m pd6124a, 6600a 33 appendix m pd612 series product list part number m pd6124a m pd6600a m pd61p24 m pd6125a m pd6126a item rom capacity 1002 10 bits 512 10 bits 1002 10 bits 1002 10 bits (mask rom) (mask rom) (one-time prom) (mask rom) ram capacity 32 5 bits i/o pin 8 pins (k i/o0-7 ) 12 pins 16 pins (k i/o0-7 , (k i/o0-7 , i/o 00-03 ) i/o 00-03 , i/o 10-13 ) s-in pin provided current consumption 2 m a1 m a (f osc = stop) (max.) s-in high-level input 30 m a 15 m a current (max.) transmission carrier frequency f osc /12, f osc /8 low-voltage detection provided none (reset) function mask option provided none (fixed) provided supply voltage v dd = 2.0 to 5.5 v v dd = 2.2 to 3.6 v v dd = 2.2 to 5.5 v v dd = 2.0 to 6.0 v package 20-pin plastic sop (300 mil) 24-pin plastic 28-pin plastic 20-pin plastic shrink dip (300 mil) sop (300 mil) sop (375 mil) 24-pin plastic shrink dip (300 mil) m pd6124a, 6600a 34 notes for cmos devices 1 precaution against esd for semiconductors note: strong electric field, when exposed to a mos device, can cause destruction of the gate oxide and ultimately degrade the device operation. steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it once, when it has occurred. environmental control must be adequate. when it is dry, humidifier should be used. it is recommended to avoid using insulators that easily build static electricity. semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. all test and measurement tools including work bench and floor should be grounded. the operator should be grounded using wrist strap. semiconductor devices must not be touched with bare hands. similar precautions need to be taken for pw boards with semiconductor devices on it. 2 handling of unused input pins for cmos note: no connection for cmos device inputs can be cause of malfunction. if no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. cmos device behave differently than bipolar or nmos devices. input levels of cmos devices must be fixed high or low by using a pull-up or pull-down circuitry. each unused pin should be connected to v dd or gnd with a resistor, if it is considered to have a possibility of being an output pin. all handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 status before initialization of mos devices note: power-on does not necessarily define initial status of mos device. produc- tion process of mos does not define the initial operation status of the device. immediately after the power source is turned on, the devices with reset function have not yet been initialized. hence, power-on does not guarantee out-pin levels, i/o settings or contents of registers. device is not initialized until the reset signal is received. reset operation must be executed imme- diately after power-on for devices having reset function. m pd6124a, 6600a 35 nec electronics inc. (u.s.) santa clara, california tel: 800-366-9782 fax: 800-729-9288 nec electronics (germany) gmbh duesseldorf, germany tel: 0211-65 03 02 fax: 0211-65 03 490 nec electronics (uk) ltd. milton keynes, uk tel: 01908-691-133 fax: 01908-670-290 nec electronics italiana s.r.1. milano, italy tel: 02-66 75 41 fax: 02-66 75 42 99 nec electronics hong kong ltd. hong kong tel: 2886-9318 fax: 2886-9022/9044 nec electronics hong kong ltd. seoul branch seoul, korea tel: 02-528-0303 fax: 02-528-4411 nec electronics singapore pte. ltd. united square, singapore 1130 tel: 253-8311 fax: 250-3583 nec electronics taiwan ltd. taipei, taiwan tel: 02-719-2377 fax: 02-719-5951 nec do brasil s.a. sao paulo-sp, brasil tel: 011-889-1680 fax: 011-889-1689 nec electronics (germany) gmbh benelux office eindhoven, the netherlands tel: 040-2445845 fax: 040-2444580 nec electronics (france) s.a. velizy-villacoublay, france tel: 01-30-67 58 00 fax: 01-30-67 58 99 nec electronics (france) s.a. spain office madrid, spain tel: 01-504-2787 fax: 01-504-2860 nec electronics (germany) gmbh scandinavia office taeby, sweden tel: 08-63 80 820 fax: 08-63 80 388 regional information some information contained in this document may vary from country to country. before using any nec product in your application, please contact the nec office in your country to obtain a list of authorized representatives and distributors. they will verify: device availability ordering information product release schedule availability of related technical literature development environment specifications (for example, specifications for third-party tools and components, host computers, power plugs, ac supply voltages, and so forth) network requirements in addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary from country to country. j96. 8 m pd6124a, 6600a [memo] the export of this product from japan is regulated by the japanese government. to export this product may be prohibited without governmental license, the need for which must be judged by the customer. the export or re-export of this product from a country other than japan may also be prohibited without a license from that country. please call an nec sales representative. the application circuits and their parameters are for reference only and are not intended for use in actual design-ins. no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec corporation. nec corporation assumes no responsibility for any errors which may appear in this document. nec corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. no license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec corporation or others. while nec corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. to minimize risks of damage or injury to persons or property arising from a defect in an nec semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. nec devices are classified into the following three quality grades: "standard", "special", and "specific". the specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. the recommended applications of a device depend on its quality grade, as indicated below. customers must check the quality grade of each device before using it in a particular application. standard: computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots special: transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) specific: aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. the quality grade of nec devices is "standard" unless otherwise specified in nec's data sheets or data books. if customers intend to use nec devices for applications other than those specified for standard quality grade, they should contact an nec sales representative in advance. anti-radioactive design is not implemented in this product. m4 96.5 |
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