SC65D02C40 8-BIT MCU FOR PRESET REMOTE CONTROL (MASK TYPE) DESCRIPTION SC65D02C40 is a preset universal remote control transmitter which uses Silan’s 8-bit MCU core SC65X. It integrates 40K-byte MASK ROM, memory and special code transmitting module, so a preset universal remote solution can be easily achieved only with a few periphery components. It can preset hundreds of different remote codes and data to control a plurality of home electric appliances. For universal remote control design, PC software auxiliary function is available for reducing design cycle and improving reliability and efficiency through code parameter setting, for which only original data is required to get code data to be masked to ROM. Another universal remote control transmitter SC65D02P40 of Silan has built-in 8K ROM and 32K OTP, and it is compatible with SC65D02C40 in memory total capacity and function. The program developed on SC65D02P40 can be directly used to generate the masking program of SC65D02C40, which can be used foe small- APPLICATIONS ∗ Preset universal remote control. batch production and sample design. FEATURES ∗ Use 8-bit MCU core SC65X. ∗ Built-in 40K-byte MASK ROM. ∗ Integrate code transmitting circuit, the carrier frequency and duty can be set flexibly, provide 32-byte code transmitting buffer. ∗ Maximum 20 pins for key function, support 96 keys. ∗ Use CMOS technology, operating voltage is 1.8V ~ 3.6V, quiescent current is less than 1μA. ∗ Together with good application software, development efficiency is high. ORDERING INFORMATION Part No. General purpose I/O ports Package Marking SC65D02C40 16 SSOP-24-300-0.65 SC65D02C40 SC65D02C40A 16 SOP-24-375-1.27 SC65D02C40A SC65D02C40B 20 SOP-28-375-1.27 SC65D02C40B SC65D02C40C 20 SSOP-28-300-0.65 SC65D02C40C HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 1 of 17 SC65D02C40 BLOCK DIAGRAM ABSOLUTE MAXIMUM RATINGS Characteristics Symbol Range Unit Power Supply VDD -0.3 ~ +5.0 V Input Voltage VIN -0.3 ~ VDD+0.3 V Storage Temperature Tstg -40 ~ +125 °C Operating Temperature Topr -20 ~ +70 °C ELECTRICAL CHARACTERISTICS(unless otherwise specified, VDD=3v,Tamb=25°c) Characteristics Symbol Test condition -- Min. Typ. Max. Unit 1.8 -- 3.6 V -- -- 1 mA Operating Voltage VDD Operating Current IDD Quiescent Current IDS Oscillator off -- 0.1 1 μA Operating Clock Fosc -- -- 4 -- MHz High Level Input Voltage VIH -- 0.7VDD -- VDD V Low Level Input Voltage VIL -- 0 -- 0.3VDD V Code transmitting with no load HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 2 of 17 SC65D02C40 Characteristics High Level Output Voltage Low Level Output Voltage High Level Current On Output Pin Low Level Current On Output Pin Port Pull-Up Resistor Symbol Test condition Min. Typ. Max. Unit VOH No load 0.9VDD -- -- V VOL No load -- -- 0.1VDD V P0/P1/P2 -- 40 -- μA P30 -- 1.5 -- mA CYOUT -- 7.5 -- mA P0/P1/P2 -- 3.5 -- mA P30 -- 0.1 -- mA CYOUT -- 0.5 -- mA 50 100 150 KΩ IOH IOL Rpu VOH=2.7V VOL=0.3V -- PIN CONFIGURATION HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 3 of 17 SC65D02C40 PIN DESCRIPTION SC65D02C40/A Pin No. Pin Name I/O Function description 1 VDD -- Power supply 24 GND -- Ground 2 XIN I External oscillator input pin. 3 XOUT O 4 nRST I 5~12 P00~P07 I/O I/O pin usually used for keyboard input 13~20 P20~P27 I/O I/O pin usually used for keyboard output 21 P30 O Output pin usually used for driving LED lamp directly. 22 CYOUT O Infrared signal control output pin. 23 TEST -- Test pin (Connected to VDD for normal use) Pin No. Pin Name I/O 1 VDD -- Power supply 28 GND -- Ground 2 XIN I External oscillator input pin. 3 XOUT O 4 nRST I 5~12 P00~P07 I/O I/O pin usually used for keyboard input 13~16 P10~P13 I/O I/O pin usually used for keyboard output 17~24 P20~P27 I/O I/O pin usually used for keyboard output 25 P30 O Output pin usually used for driving LED lamp directly. 26 CYOUT O Infrared signal control output pin. 27 TEST -- Test pin (Connected to VDD for normal use) External oscillator output pin (connect driver resistor in series between XOUT and oscillator) External reset pin (internal pull-up resistor, low active) SC65D02C40B/C Function description External oscillator output pin (connect driver resistor in series between XOUT and oscillator) External reset pin (internal pull-up resistor, low active) HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 4 of 17 SC65D02C40 FUNCTION DESCRIPTION 1. Address space assignment SC65D02C40 distributes program and data space in uniform addressing method, shown in figure 1. FFFDH FFFFH FFF0H FFFFH FFFEH (System reserved) FFFCH FFFBH FFFAH FFF9H FFF8H Reset vector value 32×8 Code transmitting buffer Interrupt vector value FFF7H FFF6H FFF5H (System reserved) 019FH 0180H 017FH 40K×8 ROM FFF4H FFF3H FFF2H FFF1H FFF0H Reset vector value in test mode Interrupt vector value in test mode 256×8 Customer RAM 6000H 5FFFH 0100H 00FFH 6000H 5FFFH (Unused) (Unused) Zero page memory 0080H 007FH 0030H 002FH SFR 0000H 01A0H 019FH 0000H Figure 1 – Address assignment 2. Oscillator circuit SC65D02C40 provides a high-gain RP-amplifie whose input is XIN and output is XOUT. By connecting a quartz crystal and two capacitors between XIN and XOUT, a stable self oscillator can be composed, shown in figure 2. The oscillation waveform generated by the oscillator circuit generates the oscillator clock after it is reshaped by the inverter. The oscillator clock provides the clock signal for WDT and code transmitting block, at the same time as the SC65X MCU system clock after dividing frequency by 4. HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 5 of 17 SC65D02C40 Figure 2 – Oscillator circuit Where: 3. Rd is drive resistor, the value is 100Ω~ 300Ω. C1 and C2 are load capacitors with same value, the range is :10pF ~ 30pF. XTAL is crystal oscillator, frequency is 2MHz ~ 6MHz. Periphery modules 3.1 WDT/timer [Description] As shown in figure 3, in WDT/timer module, the 16-bit timer can also be used as the low 16-bit of 21-bit WDT. The counting clock of WDT/timer can be directly provided by oscillator clock OscClk. [Structure] Figure 3 – WDT/timer diagram HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 6 of 17 SC65D02C40 [Function description] When external reset occurs, the initial value of timer(WDT_TimerH, WDT_TimerL)and 21-bit watchdog counter are both cleared. When use the clear module to reset the watchdog timer, the high 5-bit of the watchdog counter is cleared, the low 16-bit will be loaded from the initial value register of timer again and begin to count. When the low 16-bit of watchdog counter counts to FFFFH, the timer will overflow if increasing by 1 , then reload the initial value of timer; At this time, if the interrupt mask bit (WDT_MASK)=“0” and the timer interrupt enable bit(WDT_TimerEn)=“1”, it will generate timer interrupt signal, and WDT_FLAG is set. Add 1 to the counting value of high 5-bit of watchdog timer when bit15 of watchdog counter changes from 1 to 0; the watchdog will generate reset signal if bit20 of watchdog counter changes from 1 to 0. 3.2 I/O ports [Description] SC65D02C40 includes three groups of I/O ports: P0, P1 and P2. P0 and P2 are 8-bit parallel ports, while P1 is 4-bit parallel port. Each I/O port of SC65D02C40 can be set independently as weak pull-up input or push-pull output status. The high level output capacity of the port is much bigger than low level output capacity, so it can identify the dualkey or multi-key pressing at the same time. [Structure] Figure 4 – P0 structure Note: The structure of P1 and P2 is the same as P0. [Function description] As shown in figure 4, we take P0 for example to introduce the I/O port function. The function of P1 and P2 is the same with that of P0. When P0_Ctrl[n] is set, PMOS P1 and NMOS N1 are both off, PMOS P2 is on, pull-up resistor Rpu is active, and port P0n is input mode. When P0_Ctrl[n] is cleared, PMOS P2 is off, port P0n is output mode. At this time, when P0_Data[0] is set, PMOS P1 is on, NMOS N1 is off, and port P0n outputs high level; when P0_Data[0] is cleared, PMOS P1 is off, NMOS N1 is on, and port P0n outputs low level. HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 7 of 17 SC65D02C40 3.3 P3 port [Description] P3 of SC65D02C40 has only one bit which is only as output port. 3.4 ROM [Description] SC65D02C40 has built-in 40K-byte read-only memory(ROM), and the address range is 6000H ~FFFFH. The configuration area FFF0H~FFFFH contains reset and interrupt vectors for normal working mode and test mode.shown in figure 5: Figure 5 – MASK configuration area The reset vector value is the initial value of PC after the circuit is reset, that is the entry address of the main program, where, the high byte is stored in FFFBH, and low byte is stored in FFFAH. For example: FFFAH stores 40H, FFFBH stores 80H, then after the circuit is reset, then PC points to 8040H. The interrupt vector value is the initial value of PC after MCU responses to the interrupt, which is the entry address of the interrupt service routine, where, the high byte is stored in FFF9H, and low byte is stored in FFF8H. For example: FFF8H stores 00H, FFF9H stores 80H, then the interrupt entry address is 8000H. The reset vector value and the interrupt vector value in test mode are useful in production test, and the customer should set FFF0H with 00H, FFF1H with 60H, FFF2H with 04H, FFF3H with 60H to make sure the program down load is correct, for example, the customer should add the following code in proper position: ORG FFF0H DW 6000H DW 6004H HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 8 of 17 SC65D02C40 3.5 Code transmitting module [Description] This module is used to generate the high and low level sequence for Infrared diode control. It is comprised of carrier generating circuit and 32-byte code transmitting buffer which will realize the exact code transmitting. [Structure] Figure 6 – Code transmitting diagram [Function description] The code transmitting of SC65D02C40 defines a universal waveform (figure 7), which should be complied with when transmitting code. Figure 7 – Code transmitting format HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 9 of 17 SC65D02C40 The oscillator clock OscClk generates TClk (the cycle is T) via the code transmitting basic clock. The counting clock of the carrier generator is from the system clock TClk, as shown in figure 8. Where, the high level and low level time of the carrier is decided by the customer set TX_Carrier, and the unit is T. Figure 8 – Carrier generation theory TClk generates high and low level basic unit time TH and TL via basic 0/1 generator. TH and TL are decided by setting TX_SetBase1 and TX_SetBase0, and unit is T. TH is the basic unit time of high level time, and TL is the basic unit time of low level time. Figure 9 – Code transmitting theory HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 10 of 17 SC65D02C40 TYPICAL APPLICATION CIRCUIT(a) VDD 0.1µ 3V 47µ 1 22p 4M 100 22p GND 24 2 XIN TEST 23 3 XOUT CYOUT 22 4 nRST P30 21 5 P00 6 P01 7 P02 8 P03 9 P04 K00 K01 K02 K03 K04 K05 K06 K07 K10 K11 K12 K13 K14 K15 K16 K17 K20 K21 K22 K23 K24 K25 K26 K27 K30 K31 K32 K33 K34 K35 K36 K37 K40 K41 K42 K43 K44 K45 K46 K47 K50 K51 K52 K53 K54 K55 K56 K57 K60 K61 K62 K63 K64 K65 K66 K67 K70 K71 K72 K73 K74 K75 K76 K77 SC65D02C40A KRST 1 VDD 1K RLED = 1K LED P26 19 P25 18 P24 17 P23 16 10 P05 P22 15 11 P06 P21 14 12 P07 P20 13 HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn P27 20 IRD REV:1.1 2008.12.10 Page 11 of 17 SC65D02C40 TYPICAL APPLICATION CIRCUIT(b) VDD 0.1µ 3V 47µ 1 22p 4M 100 22p GND 24 2 XIN TEST 23 3 XOUT CYOUT 22 4 nRST P30 21 5 P00 6 P01 7 P02 8 P03 9 P04 K00 K01 K02 K03 K04 K05 K06 K07 K10 K11 K12 K13 K14 K15 K16 K17 K20 K21 K22 K23 K24 K25 K26 K27 K30 K31 K32 K33 K34 K35 K36 K37 K40 K41 K42 K43 K44 K45 K46 K47 K50 K51 K52 K53 K54 K55 K56 K57 K60 K61 K62 K63 K64 K65 K66 K67 K70 K71 K72 K73 K74 K75 K76 K77 SC65D02C40A KRST 1 VDD Http: //www.silan.com.cn 1K 1K 5.1K P27 20 P26 19 P25 18 P24 17 P23 16 10 P05 P22 15 11 P06 P21 14 12 P07 P20 13 HANGZHOU SILAN MICROELECTRONICS CO.,LTD 10K IRD LED4 300 LED3 300 LED2 300 LED1 300 REV:1.1 2008.12.10 Page 12 of 17 SC65D02C40 TYPICAL APPLICATION CIRCUIT(c) VDD 0.1µ 3V 47µ 1 22p 4M 100 22p GND 24 2 XIN TEST 23 3 XOUT CYOUT 22 4 nRST P30 21 5 P00 6 P01 7 P02 8 P03 9 P04 K00 K01 K02 K03 K04 K05 K06 K07 K10 K11 K12 K13 K14 K15 K16 K17 K20 K21 K22 K23 K24 K25 K26 K27 K30 K31 K32 K33 K34 K35 K36 K37 K40 K41 K42 K43 K44 K45 K46 K47 K50 K51 K52 K53 K54 K55 K56 K57 K60 K61 K62 K63 K64 K65 K66 K67 K70 K71 K72 K73 K74 K75 K76 K77 SC65D02C40A KRST 1 VDD IRD 1K P27 20 P26 19 P25 18 P24 17 P23 16 10 P05 P22 15 11 P06 P21 14 12 P07 P20 13 LED4 RLED4 = 1K LED3 RLED3 = 1K LED2 RLED2 = 1K LED1 RLED1 = 1K Note: The design precondition of above three typical application circuits is: if the circuit structure is not changed, the SC65D02C40 can directly take the place of SC65D02P40; Typical application circuit (a) is generally used in the situation with one LED lamp; Typical application circuit (b) is generally used in the situation with many LED lamps, if no need to light all the LEDs, you can use the typical application circuit (c) to save the cost. HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 13 of 17 SC65D02C40 PACKAGE OUTLINE SOP-24-375-1.27 Unit: mm SOP-28-375-1.27 Unit: mm HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 14 of 17 SC65D02C40 PACKAGE OUTLINE SSOP-24-300-0.65 Unit: mm SSOP-28-300-0.65 Unit: mm HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 15 of 17 SC65D02C40 MOS DEVICES OPERATE NOTES: Electrostatic charges may exist in many things. Please take following preventive measures to prevent effectively the MOS electric circuit as a result of the damage which is caused by discharge: z The operator must put on wrist strap which should be earthed to against electrostatic. z Equipment cases should be earthed. z All tools used during assembly, including soldering tools and solder baths, must be earthed. z MOS devices should be packed in antistatic/conductive containers for transportation. Note:Silan reserves the right to make changes without notice in this specification for the improvement of the design and performance. Silan will supply the best possible product for customers. HANGZHOU SILAN MICROELECTRONICS CO.,LTD Http: //www.silan.com.cn REV:1.1 2008.12.10 Page 16 of 17