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Ordering number : ENN*6829
CMOS IC
LC65F1306A
4-Bit Single-Chip CMOS Microcontroller for Small-Scale Control Applications
Preliminary Overview
The LC65F1306A belongs to our 4-bit single-chip microcontroller LC6500 series fabricated using CMOS process technology. They are ideally suited for use in small-scale control applications. Their basic architecture and instruction set are the same. These microcontrollers include an 8-input 8-bit A/D converter and are appropriate for use in a wide range of applications. That range includes applications with a small number of control circuits that were previously implemented in standard logic, and applications with a larger scale such as home appliances, automotive equipment, communications equipment, office equipment, and audio equipment such as decks and players. This microcontroller, with some exceptions, has identical functions to the LC651306A, 1304A, 1302A and 1301A mask ROM version microcontrollers. It can also be used as an OTP version microcontroller. Further, through a rewrite operation on the FLASH memory, the LC65F1306A can be used in applications where previously microcontrollers of this type could not have been implemented.
Features
1) CMOS technology for a low-power consumption operation (A standby function that can be invoked under program control is also provided.) 2) Flash ROM/RAM LC65F1306A Flash ROM : 6K x 8 bits, RAM : 256 x 4 bits 3) Instruction set : 81 instructions common to all microcontrollers of the LC6500 series 4) Wide operating voltage range : 3.0 V to 5.5 V 5) Instruction cycle time : 0.92 s 6) On-chip serial I/O port
Ver.1.01 62600
N3000 RM (IM) TY No.6829-1/22
LC65F1306A 7) Flexible I/O port * Number of ports : 5 ports / 18 pins (max.) * All ports : Input / output common Input / output capacity voltage 15V max. (open-drain specification C and D only) Output current 20 mA max. sink current (Can drive an LED directly) * Support option for system specification Output level in the reset mode : high/low level for port C and D specified in 4-bit unit 8) Interrupt function Interrupt by timer overflow (can be tested under program control) Interrupt by the state of the INT pin or completion of transmission/reception at serial I/O port (can be tested under program control) 9) Stack level : 10) Timer : 8 levels (common use with interrupt) 4-bit variable prescaler + 8-bit programmable counter
11) Clock oscillation options for user's intended system * Oscillator circuit options : two-pin RC oscillator two-pin ceramic oscillator * Divider circuit options : No divider built-in divide by 3 built-in divide by 4 12) Continuous square wave output (64 times of the cycle time) 13) AD converter (successive approximation) * Precise conversion (expressed in 8 bits), 8 input channels 14) Watchdog timer * RC circuit time constant * Watchdog timer reset function can be assigned to an external pin by the option. 15) Low voltage detection circuit * Can be implemented by the option. 16) Factory shipment * DIP24S, MFP24S 17) Flash Memory * Rewrite block size : * Erase / write voltage : * Rewritable limit : * Operating temperature :
128 bytes / page 3.0 to 5.5V 10000 times (target number, to be decided after evaluation) 0 to +85C (when writing to the flash memory) -20 to +85C (when reading from the flash memory)
No.6829-2/22
LC65F1306A
Function Table
Memory Parameter ROM LC651306A/04A/02A/01A 6144 x 8 bits (1306A) 4096 x 8 bits (1304A) 2048 x 8 bits (1302A) 1024 x 8 bits (1301A) 256 x 4 bits (1306A/04A/02A/01A) 81 Supported 1 external, 1 internal 4-bit variable prescaler + 8-bit timers 8 Standby mode by the HALT instruction supported 18 I/O port pins Input and output in 4 or 8 bit units LC65F1306A 6144 x 8 bits
RAM Instructions On-chip functions Instruction set Table reference Interrupt Timer Stack level Standby function I/O ports Port number Serial port
256 x 4 bits 81 Supported 1 external, 1 internal 4-bit variable prescaler + 8-bit timers 8 Standby mode by the HALT instruction supported 22 I/O port pins Input and output in 4 or 8 bit units
Characteristics
Oscillator
Other items
I/O voltage 15 V max. 15 V max. capacity Output current 10 mA typ. 20 mA max. 10 mA typ. 20 mA max. I/O circuit type Open drain (N-channel) or Open drain (N-channel) pull-up resistor output option can be specified in 1- bit unit. Output level at High or low level output can be selected in port unit (ports C and D reset only) Square wave output Supported Supported Minimum cycle 0.92 s (VDD 2.5 V) 0.92 s (VDD 3.0 V) time Operating -40C to +85C 0C to +85C (when writing) temperature -20C to +85C (when reading) Supply voltage 2.5 to 6 V 3.0 to 5.5 V Supply current 1.5 mA typ. 3 mA typ. Oscillator RC (800 kHz typ.) RC (800 kHz typ.) Ceramic (400k, 800k,1MHz, Ceramic (400k, 800k,1MHz, 4MHz) 4MHz) Divider circuit 1/1, 1/3, 1/4 1/1, 1/3, 1/4 option Package DIP24S MFP24S SSOP24 DIP24S MFP24S Watchdog timer Supported Supported OTP Only DIP24S MFP24S -
Note: The above oscillator and oscillator circuit constants are tentative. They will be announced as the recommended circuits for these microcontrollers are determined. Please confirm the progress of these developments periodically.
No.6829-3/22
LC65F1306A
Pin Assignment
DIP24S, MFP24S
CE/RES OE/PE0/SQR WE/PE1/WDR ALE/PF0/SI/AD4 A0/A7/PF1/SO/AD5 A1/A8/PF2/SCK/AD6 A2/A9/PF3/INT/AD7 A3/A10/PA0/AD0 A4/A11/PA1/AD1 A5/A12/PA2/AD2 A6/PA3/AD3 VDD
1 2 3 4 5 6 7 8 9 10 11 12
24 23 22 21 20 19 18 17 16 15 14 13
OSC1 OSC2 TEST/EPMOD VSS PD3/D7 PD2/D6 PD1/D5 PD0/D4 PC3/D3 PC2/D2 PC1/D1 PC0/D0
: Pin function names used when writing data to on-chip Flash ROM with the PROM writer
Pin Functions
OSC1, OSC2 RES PA0-3 PC0-3 PD0-3 PE0-1 PF0-3 : : : : : : : Ceramic Oscillator for OSC, RC Reset Common I/O port A0-3 Common I/O port C0-3 Common I/O port D0-3 Common I/O port E0-1 Common I/O port F0-3 TEST AD0-AD7 SQR WDR INT SI SO SCK : : : : : : : : Test AD converter analog input Square wave output Watch Dog Reset pin Interrupt Request pin Serial Input pin Serial Output pin Serial Clock input/output pin
Notes: * SQR and WDR are common with PE0 and PE1 respectively. * SI, SO, SCK, and INT are common with PF0 to PF3 respectively.
No.6829-4/22
LC65F1306A
Package Dimension (unit : mm)
3067A
SANYO : DIP24S(300mil)
Package Dimension (unit : mm)
3112A
SANYO : MFP24S(300mil)
No.6829-5/22
LC65F1306A
System Block Diagram
LC65F1306A
PA0-3 AD0-3
Port A
I/O Buffer 8-BIT ADC
RAM
F WR DP
PC
STACK 1 to STACK 8
FLASH ROM
PF0-3 AD4-7 PC0-3 PD0-3
Port F Port C Port D
Serial shift register lower digit Serial shift register
Port E
IR
I.DEC
System Bus
E
Serial mode register
AC
ALU
Serial mode register
CF
STS
ZF EXTF TMF
CSF ZSF
TM CTL INT OSC OSC1 OSC2 RES TEST VDD VSS
PF1/SO
4/8 bit Shared with port F
I/O Bus
4 bit
higher digit
PF0/SI PF2/SCK PF3/INT
4/8 bit
PE0-1
WDR
RAM F WR AC ALU DP E CTL OSC TM STS
: : : : : : : : : : :
Data Memory Flag Working Register Accumulator Arithmetic and Logic Unit Data Pointer E register Control register Oscillation Circuit Timer Status register
FLASH ROM PC INT IR I.DEC CF, CSF ZF, ZSF EXTF TMF
: : : : : : : : :
Program Memory Program Counter Interrupt control Instruction Register Instruction Decoder Carry Flag, Carry Save Flag Zero Flag, Zero Save Flag External Interrupt Request Flag Internal Interrupt Request Flag
No.6829-6/22
LC65F1306A
Development Support
The following are currently in the development stage and will soon be available to the user for the development of the LC65F1306A. 1. 2. 3. 4. User's manual Refer to the "LC65F1306A/LC651300 series user's manual." Development tool manual Refer to the "EVA86000 Development Tool Manual for 4-bit microcontrollers." Software manual "LC65/66 Series Software Manual" Development tool a. For program development (EVA86000 system) b. For program evaluation Microcontroller with Flash ROM (LC65F1306)
Pin Functions
Symbol
VDD VSS OSC1 OSC2
Number of pins
1 1 1 1
I/O
Input Power supply
Function
-
Option
-
At reset
Handling when unused
-
PA0-PA3/ AD0-AD3
4
PC0-PC3
4
PD0-PD3
4
* Pins for connecting system clock (1) Two-pin RC oscillator, oscillation RC or ceramic resonator. external clock * Leave OSC2 open when OSC1 is (2) Two-pin ceramic oscillator Output used for an external clock input (3) Divider option 1. No divider 2. Divide by 3 3. Divide by 4 I/O Open-drain output only * I/O port A0 to A3 Input in 4-bit unit (IP instruction) Output in 4-bit unit (OP instruction) Testing in 1-bit unit (BP, BNP instructions) Set and reset in 1-bit unit (SPB, RPB instructions) * PA3 is used for standby mode control. * Chattering should not be occurred on the PA3 during HALT instruction execution. * All four pins have shared function. PA0/AD0:AD converter input AD0 PA1/AD1:AD converter input AD1 PA2/AD2:AD converter input AD2 PA3/AD3: converter input AD3 I/O Open-drain output only *I/O port C0 to C3 The port functions are identical to (1) High level output during those of PA0 to PA3 (See note). reset. (2) Low level output during * The output during a reset can be selected to be either high or low as reset. an option. * (1) and (2) are specified Note: This port has no standby 4 bits at a time mode control function. I/O Same as PC0 to PC3. *I/O port D0 to D3 The port functions and options are identical to those of PC0 to PC3.
High-level output (The output N-channel transistors in the off state.)
Select the open-drain output option and connect to VSS.
* High-level Same as PA0 to PA3. output. * Low-level output. (Depending on options selected) Same as PC0 to Same as PA0 to PC3. PA3.
No.6829-7/22
LC65F1306A Handling when unused
Identical to those for PA0 to PA3.
Symbol
PE0-PE1 /WDR
Number of pins
2
I/O
I/O
Function
* I/O port E0 to E1 Input in 4-bit unit (IP instruction) Output in 4-bit unit (OP instruction) Set and reset in 1-bit unit (SPB and PRB instructions) Testing in 1-bit unit (BP and BNP instructions) * PE0 also has a continuous pulse (64 Tcyc) output function. * PE1 becomes the watchdog reset pin WDR when selected as an option. * I/O port F0 to F3 The port functions and options are identical to those of PE0 to PE1 (See note). * PF0 to PF3 have shared functions with the serial interface pins and the INT input. The function can be selected under program control. SI... Serial input pin SO...Serial output pin SCK...Input and output of the serial clock signal. INT...Interrupt request signal The serial I/O function can be switched between 4-bit and 8-bit transfers under program control. Note: There is no continuous pulse output function. * All four pins have shared function. PF0/AD4: AD converter input AD4 PF1/AD5: AD converter input AD5 PF2/AD6: AD converter input AD6 PF3/AD7: AD converter input AD7 * System reset input * Provide an external capacitor for the power-on reset. * Apply low level to this pin for 4 or more clock cycles to reset and restart the program. * Test pin for LSI. This pin must be connected to VSS during normal operation.
Option
Open -drain output only (1) Normal port PE1 (2) Watchdog reset WDR * Either options (1) or (2) can be selected.
At reset
High level output (The output N-channel transistors in the off state)
PF0/SI/A D4 PF1/SO/ AD5 PF2/ SCK /AD6 PF3/ INT /AD7
4
I/O
Identical to those for PA0 to Identical to those for PA0 PA3. to PA3. The serial port functions are disabled. The interrupt source is set to
INT.
Identical to those for PA0 to PA3.
RES
1
Input
-
-
-
TEST
1
Input
-
-
This pin must be connected to VSS.
No.6829-8/22
LC65F1306A
User Option
User option is selected according to the information written to the user option area on the on-chip Flash ROM.
Oscillator Circuit Options
Option External clock OSC1 Circuit Conditions and notes The OSC2 pin should be left open.
Two-pin RC oscillator Cext OSC1
OSC Rext Ceramic oscillator C1 OSC1
Ceramic Resonator
OSC2 R
C2
Divider Circuit Options
Option No divider (1/1)
Oscillator circuit
Circuit
Conditions and notes * The oscillator frequency or external clock frequency should not exceed 4330 kHz.
Timing Generator
fOSC
Oscillator circuit
fOSC
Divide by 3
fOSC 3
Timing Generator Timing Generator
Built-in divide-by-three circuit
* This option can only be used with the external clock and the ceramic oscillator options. * The oscillator frequency or external clock frequency should not exceed 4330 kHz. * This option can only be used with the external clock and the ceramic oscillator options. * The oscillator frequency or external clock frequency should not exceed 4330 kHz.
Oscillator circuit
Built-in divide-by-four circuit
fOSC
fOSC 4
Divide by 4
Note: The following table summarizes the oscillator and divider circuit options. When selecting the divider option, the relationship between frequency and cycle time must be taken into account.
No.6829-9/22
LC65F1306A
LC65F1306A Oscillator Options
Circuit type
Ceramic resonator
Frequency
400 kHz 800 kHz 1 MHz 4 MHz
Divider option (Cycle time)
1/1 (10s)
VDD range
3 to 5.5V
Notes
Can not be used with the divide-by-three and divide-by-four options.
External clock (used with the 2-pin RC oscillator circuit) Two-pin RC
External clock used with the ceramic oscillator option
3 to 5.5V 1/1 (5s) 3 to 5.5V 1/1 (4s) 3 to 5.5V 1/1 (1s) 3 to 5.5V 1/3 (3s) 3 to 5.5V 1/4 (4s) 384 k to 4330 kHz 3 to 5.5V 1/1 (10.4 to 0.92s) 1152 k to 4330 kHz 3 to 5.5V 1/3 (10.4 to 2.77s) 1536 k to 4330 kHz 3 to 5.5V 1/4 (10.4 to 3.70s) Use the no divider circuit option and the 3 to 5.5V recommended circuit constants. When using other constants by necessity, use the frequency and VDD range identical to the external clock written above. External clock drive is not possible. To use external clock drive, select the 2-pin RC oscillator option.
Port C and D Output level Option During Reset
The Output level of the C and D ports at reset can be selected from the following two options in 4-bit unit. Option High level output at reset Low level output at reset Conditions and notes Ports C and D in 4-bit unit Ports C and D in 4-bit unit
Port Output Type
The I/O port type is open-drain output. Option Open-drain output Circuit Ports
Ports A, C, D, E and F
Watchdog Reset Option
This option allows the user to select how the PE1/WDR pin is to be used. It can be used as the normal port PE1, or used as the watchdog reset pin WDR.
No.6829-10/22
LC65F1306A 1. Absolute Maximum Ratings at Ta=25C, VSS=0V Parameter Maximum supply voltage Output voltage Symbol VDD max VO Conditions Applicable pins and notes VDD OSC2 Ratings -0.3 to +6.5 Output voltage generated can be over the maximum limit of the VDD. -0.3 to VDD+0.3 -0.3 to VDD+0.3 unit V
Input voltage
VI (1) VI (2) VIO (1) PC0 to 3, PD0 to 3
I/O voltage
VIO (2)
PC0 to 3, PD0 to 3
VIO (3) Peak output IOP current Average IOA output current IOA(1)
PA0 to 3, PE0, 1, PF0 to 3
OSC1 (Note 1) TEST, RES AV+, AVOpen-drain -0.3 to +15 specification ports Pull-up resistor -0.3 to VDD+0.3 specification ports -0.3 to VDD+0.3 I/O Port -2 to +20 -2 to +20 -15 to +100
mA
Maximum power consumption Operating temperature Storage temperature
Average current applied to a pin I/O Port for 100 ms The total current of PC0 to 3, PC0 to 3 PD0 to 3 and PE0 to 1. (Note 2) PD0 to 3 PE0 to 1 The total current of PF0 to 3 and PF0 to 3 IOA(2) PA0 to 3. (Note 2) PA0 to 3 Pd max (1) Ta=-20 to +85C (DIP package) Pd max (2) Ta=-20 to +85C (MFP package) Topr Tstg
-15 to +100 310 220 -20 to +85 -55 to +125 mW C
No.6829-11/22
LC65F1306A 2. Recommended Operating Range at Ta=-20 to +85C, VSS=0V, VDD=3.0 to 5.5V (Unless otherwise specified)
Parameter Operating supply voltage Standby supply voltage High level input voltage Symbol VDD VST VIH(1) RAM and register values retained. (Note 3) Output Nch Tr. off Conditions Applicable pins and notes VDD VDD Port C, D with open-drain specifications. Port A, E, F The INT, SCK, and SI pin with open-drain specifications. RES OSC1 Port Port
INT, SCK, SI INT, SCK, SI
min. 3.0 1.8 0.7VDD
Ratings typ.
max. 5.5 5.5 13.5
unit V
VIH(2) VIH(3)
Output Nch Tr. off Output Nch Tr. off
0.7VDD 0.8VDD
VDD VDD
VIH(4) Low level input voltage VIH(5) VIL(1) VIL(2) VIL(3) VIL(4) VIL(5) VIL(6) VIL(7) VIL(8) VIL(9) VIL(10) Operating frequency (cycle time) External clock conditions Frequency Pulse width Rising/falling time Recommended oscillation constants Two-pin RC oscillator Ceramic oscillator (Note 4) fop (Tcyc) Fig. 1
VDD=1.8 to 5.5 V External clock specifications Output Nch Tr. off VDD=4 to 5.5V Output Nch Tr. off 3 to 5.5V Output Nch Tr. off VDD=4 to 5.5V Output Nch Tr. off 3 to 5.5V External clock VDD=4 to 5.5V specification External clock 3 to 5.5V specification VDD=4 to 5.5V 3 to 5.5V VDD=4 to 5.5V 3 to 5.5V VDD=3 to 5.5V
0.8VDD 0.8VDD VSS VSS VSS VSS VSS VSS VSS VSS VSS VSS 384 (10.4)
VDD VDD 0.3VDD 0.25VDD 0.25VDD 0.2VDD 0.25VDD 0.2VDD 0.3VDD 0.25VDD 0.25VDD 0.2VDD 4330 (0.92) 4330 kHz (s) kHz ns 50 2705% 5.61% pF k
OSC1 OSC1 TEST TEST
RES RES
VDD=3 to 5.5V text textH, textL textR, textF Cext Rext VDD=3 to 5.5V VDD=3 to 5.5V Fig. 2 VDD=3 to 5.5V
OSC1 OSC1 OSC1 OSC1, OSC2
384 69
Fig. 3
See Table 1
No.6829-12/22
LC65F1306A 3. Electrical Characteristics at Ta=-20 to +85C, VSS=0V, VDD=3.0 to 5.5V (Unless otherwise specified)
Parameter Input High level current Symbol IIH(1) Conditions Output Nch Tr. OFF (including OFF leak current of Nch Tr.) VIN=+13.5V Output Nch Tr. OFF (including OFF leak current of Nch Tr.) VIN=VDD When external clock is used, VIN=VDD Output Nch Tr. OFF VIN=VSS Output Nch Tr. OFF VIN=VSS VIN=VSS When external clock is used, VIN=VSS IOH=-50 A VDD=4.0 to 6.0V IOH=-10 A Applicable pins and notes Port C and D with the open-drain specifications Port A, E and G with the open-drain specifications OSC1 Ports with the open-drain specifications Ports with the pull-up resistor specifications
RES
min.
Ratings typ.
max. 5.0
unit A
IIH (2)
1.0
IIH (3) Input Low level current IIL(1)
1.0 -1.0
IIL(2)
-1.3
-0.35
mA A
IIL(3) IIL(4) Output High level voltage VOH (1)
-45 -1.0 VDD-1.2
-10
OSC1 Ports with the pull-up resistor specifications Ports with the pull-up resistor specifications Port Port
RES, INT, SCK,
V
VOH (2)
VDD-0.5
Output Low level voltage
VOL(1) VOL(2)
IOL=10 mA VDD=4.0 to 6.0 V IOL=1 mA, IOL of each Port : 1 mA or less
1.5 0.5 0.1VDD
Schmitt characteristics
Hysteresis Voltage
VHIS
High level threshold voltage Low level threshold voltage Current consumption Two-pin RC oscillator Ceramic oscillator
VtH
SI, and schmitt specification OSC1 (Note 5)
0.4VDD
0.8VDD
VtL * Output N-channel transistors are off when operating * Port = VDD * Fig. 2, fosc=800 kHz (typical) * Fig. 3, 4 MHz, no divider * Fig. 3, 4 MHz, divide-by-three circuit * Fig. 3, 4 MHz, divide-by-four circuit * Fig. 3, 400 kHz * Fig. 3, 800 kHz * 384 kHz to 4330 kHz, no divider * 1152 kHz to 4330 kHz, divide-by-three circuit * 1536 kHz to 4330 kHz, divide-by-four circuit Output N-channel, VDD=6V transistor off Ports=VDD VDD=2.5V
0.2VDD
0.6VDD
VDD 3.0 VDD VDD VDD VDD VDD VDD VDD 4.0 3.0 3.0 2.0 3.0 4.0 3.0 6 10 8 6 5 6 10 8
mA
IDDOP (1) IDDOP (2) IDDOP (3) IDDOP (4) IDDOP (5) IDDOP (6) IDDOP (7) IDDOP (8)
External clock
Standby mode
IDDst
VDD VDD
0.05 0.025
10 5
A
No.6829-13/22
LC65F1306A
Ratings typ.
Parameter Oscillation characteristics Ceramic resonator Frequency
Symbol
Conditions
Pin
min.
max.
unit
fCFOSC (Note 7)
Oscillation stabilizing time (Note 8)
tCFS
Two-pin RC oscillator frequency Pull-up resistance
RES
fMOSC Ru
* Fig. 3 fo=400kHz * Fig. 3 fo=800kHz * Fig. 3 fo=1MHz * Fig. 3 fo=4MHz, with no divider, divide-by-three, or divide-by-four circuit * Fig. 4 fo=400kHz * Fig. 4 fo=800kHz, 1MHz, or 4MHz, with no divider, divide-by-three, or divide-by-four circuit * Fig. 2 Cext=270pF5% * Fig. 2 Rext=5.6k1% VIN=VSS VDD=5V
OSC1,OSC2 OSC1,OSC2 OSC1,OSC2 OSC1,OSC2
392 784 980 3920
400 800 1000 4000
408 816 1020 4080
kHz
10 10
ms
OSC1, OSC2
RES
587 200
800 500
1298 800
kHz k
External reset characteristics Reset time Pin capacitance
tRST Cp
f=1MHz, Pins except for tested pins, VIN=VSS
SCK
See Fig.5 10
pF
Serial clock Input clock Cycle time Output clock Cycle time Input clock low level pulse width Output clock low level pulse width Input clock high level pulse width Output clock high level pulse width Serial input Data setup time Data hold time Serial output Output delay time
tCKCY(1) tCKCY(2) tCKL(1) tCKL(2) tCKH(1) tCKH(2)
Fig. 6 Fig. 6 Fig. 6 Fig. 6 Fig. 6 Fig. 6
SCK SCK SCK SCK SCK
2.0 64xtCYC (Note 9) 0.6 32xtCYC 0.6 32xtCYC
s
tICK tCKI
Specified for the rising edge of
SCK
SI SI
0.2 0.2
Fig. 6 tCKO * Specified for the falling edge of
SCK
SO
0.4
* Select only Nch OD option, and add external 1k resistor and external 50pF capacitor. * Fig. 6
No.6829-14/22
LC65F1306A
Applicable pins and notes PE0 PE0 PE0 Ratings typ. 64xTCYC 32xTCYC 10% 32xTCYC 10%
Parameter Pulse output Period High level pulse width Low level pulse width Resolution Absolute precision Conversion time
Symbol tPCY tPH tPL
Conditions * Fig.7 * TCYC=4 x system clock * Select only Nch OD option, and add external 1k resistor and external 50pF capacitor.
VDD[V]
min.
max.
unit s
3 to 5.5 AV+=VDD AV-=VSS When AD speed is 1/1=26*TCYC When AD speed is 1/2=51*TCYC
8 1 24 (TCYC= 0.92s) 47 (TCYC= 0.92s) VSS
2 260 (TCYC= 10s) 510 (TCYC= 10s) VDD 1
bit LSB s
A/D converter characteristics
TCAD
Analog input voltage range Analog port input current
VAIN IAIN Including the output off leakage current. VAIN=VDD VAIN=VSS
AD0 to AD7 AD0 to AD7 (The shared I/O function ports have open-drain specification) WDR WDR WDR WDR WDR 3 to 5.5 WDR WDR WDR WDR WDR
V A
-1 F k s ms 0.015% 6801% 1001% 10 4.2 F k s ms
Recommended constants (Note 10)
Cw Rw Rl
Watch dog timer
Clear time (discharge) Clear period (charge) Recommended constants (Note 10)
tWCT tWCCY Cw Rw Rl
When PE1 is using open-drain When PE1 is using open-drain When PE1 is using open-drain Fig.8 Fig.8 When PE1 is using open-drain When PE1 is using open-drain When PE1 is using open-drain Fig.8 Fig.8
3 to 5.5
0.15% 6801% 1001% 100 36
Clear time (discharge) Clear period (charge)
tWCT tWCCY
Notes: (1) When oscillated internally under the oscillating conditions in Fig.3, generated voltage can be over the maximum limit of the VDD. (2) Average for 100 ms period. (3) Operating supply voltage VDD must be held until the microcontroller enters in the standby mode after the execution of the HALT instruction. Any chattering should not be generated at the PA3 pin during the HALT instruction execution cycle. (4) Recommended circuit constants that are verified by the oscillator manufacturer, using oscillator characteristic evaluation board selected by SANYO. (5) The OSC1 pin will have schmitt characteristics when external clock oscillator or the two-pin RC oscillator is selected as an oscillation option. (6) These are the results of testing using the value at each part on the Fig.3 circuit which is recommended by SANYO. These results do not include the current applied to the output transistor, nor the current applied to the transistor with a pull-up resistor on the LSI. (7) fCFOSC is the frequency when the values in table 1 are used. (8) This indicates the elapsed time that is required before the oscillation becomes stable after the VDD exceeds the minimum limit of the operation supply voltage. (9) TCYC=4xsystem clock period (10) When used in an environment that may result in condensation, note that a current leakage between PE1 and adjacent pins
No.6829-15/22
LC65F1306A or a current leakage at external integration circuit using R and C could occur.
OSC1
(OSC2)
External Clock
OPEN
VDD 0.8VDD
0.2VDD VSS
textF
textL
textR text
textH
Figure 1 External Clock Input Waveform
OSC1
OSC2
OSC1
OSC2
R Rext Cext C1 Ceramic Resonator C2
Figure 2 Two-pin RC Oscillator Circuit
Figure 3 Ceramic Resonator Circuit
No.6829-16/22
LC65F1306A
VDD The lowest limit of the operating VDD 0V
Stable oscillation Oscillation stabilizing time tCFS
Figure 4 Oscillation Stabilizing Time
Table 1 Recommended Ceramic Resonator constants
Data will be added once evaluation has been completed.
RES
CRES(=0.1 F)
Figure 5 Reset Circuit (Note) If measured from the instant the voltage level reaches the lowest limit of the operating VDD (i.e. not including the rising time), the reset time when CRES=0.1 F is used should be between 10 ms to 100 ms.
No.6829-17/22
LC65F1306A
tCKCY 0.8VDD tCKL
SCK
tCKH 0.2VDD
tICK SI tCKO SO
tCKI 1k
VDD Load circuit
Input Data
Output Data
50pF
Figure 6 Serial I/O Timing
tPCY tPH 0.7VDD tPL The load conditions are the same as those in Figure 5.
0.25VDD
Figure 7 Port PE0 Pulse Output Timing
Rw RI PE1/WDR Cw
tWCCY
tWCT
tWCCY : Charge time made by the external Cw, Rw, and Rl time constants tWCT : Discharge time made by program control Figure 8 Watchdog Timer Waveform
No.6829-18/22
LC65F1306A RC Oscillator Characteristic of LC65F1306A
Data will be added once evaluation has been completed.
No.6829-19/22
LC65F1306A
Notes on Circuit Board Design
This section provides hints and countermeasure for noise problem in terms of microcontroller when designing circuit boards using these microcontrollers for a mass production. These design techniques are effective to prevent and avoid the defects (e.g. malfunctions of the microcontroller or a runaway program) caused by noise. 1. VDD, VSS : Power Supply Pins Add capacitors between the VDD and VSS pins so that they meet the following conditions. * The length of the line from the VDD to the two capacitors and the length of the line from the VSS to the two capacitors should be as equal as possible (L1=L1', L2=L2'), and should be as short as possible. * Add the larger capacitor to `C1' position and smaller capacitor to `C2' position. The VDD and VSS lines on the circuit board should be thicker than any other lines.
L2 L1 C1 C2
VSS VDD
+
L1' L2'
2. OSC1, OSC2 : Clock I/O Pins * When the ceramic resonator option is selected : (Figure 2-1) * The length of the lines (Losc in Fig.2-1) between the clock I/O pins (input: OSC1, output: OSC2) and the external components should be as short as possible. * The length of the lines (Lvss+L1 or L2 ) between each capacitor and the VSS pin should be as short as possible. * The VSS line for the oscillation circuit and the VSS line for other functions should be branched as close as possible to the microcontroller's VSS pin. * Oscillation constants written in this specification sheet (such as the capacitor C1, C2 and the damping resistor Rd) may have to be changed and the frequency should be adjusted, depending on the pattern capacity of the circuit board. In this case, contact the oscillator manufacturer about it. * When two-pin RC oscillator option is selected: (Figure 2-2) * The length of the lines (Losc) between the clock I/O pins (input: OSC1, output: OSC2) and the external components (capacitor Cext, resistor Rext) should be as short as possible. * The length of the line (Lvss+Lc) between the capacitor and the VSS pin should be as short as possible. * The VSS line for the oscillation circuit and the VSS line for other functions should be branched as close as possible to the microcontroller's VSS pin. * When the external oscillation option is selected: (Figure 2-3) * The length of the line (Losc) between the clock input pin (OSC1) and the external oscillator should be as short as possible. * The clock output pin (OSC2) should be opened. * The length of the line between the VSS and the external oscillator, and the length of the line between the VDD and the external oscillator should be as short as possible.
Lvss L1 L2 C2 Rd Losc Lvss Lc External Oscillator Cext Rext Losc Losc OPEN C1
VSS OSC1 OSC2
Figure 2-1. Sample Oscillation Circuit 1 (Ceramic resonator)
VSS OSC1 OSC2
Figure 2-2. Sample Oscillation Circuit 2 (Two-pin RC Oscillator)
VSS OSC1 OSC2 VDD
Figure 2-3. Sample Oscillation Circuit 3 (External Oscillator)
No.6829-20/22
LC65F1306A * Other note on all oscillator circuit: * Place the lines for signals that can easily change suddenly, high amplitude signals connected to the higher capacity voltage (+15 V) ports, and powerful current supplies as far as possible from the oscillation circuit, and do not cross these lines with lines concerned to the clock. 3. RES : Reset Pin * The length of line (Lres) between the RES pin and the external circuit should be as short as possible. * The length of lines (L1 and L2) between the RES pin and the capacitor (Cres), and the VSS and the capacitor should be as short as possible.
VSS
L2 External Circuit Cres
RES
L1 Lres
Figure 3. RES Pin Patterns
4. TEST : Test Pin * The length of line (L) between the VSS and the TEST pin should be as short as possible. * The TEST pin and the VSS pin should be connected as close as possible to the VSS pin.
VSS L TEST
Figure 4. Test Pin Patterns
5. AD0 to AD7 : Analog Input Pins The connection for the analog input pins, such as A/D converter input pins and comparator input pin, should meet the following conditions. * The length of the line (L1) between the damping resistor (R1) and each analog pins should be as short as possible. * The capacitor added between each analog pins and AV- pin (base voltage input pin for A/D converter) should be located as close as possible to the AV- input pin.
Rl C
L1
AD4-7
AD3-0
Analog Input Pins
L2
External circuit (sensor block)
AVVSS
Figure 5. Analog Input Pins Patterns
6. I/O Pins All I/O pins on these microcontrollers have function of both input and output. * When used as an input pin, add a damping resistor and keep the length of the line to that pin as short as possible.
No.6829-21/22
LC65F1306A [Supplement] In addition to the techniques for designing a circuit board, the following options and programming are effective to prevent and avoid the defects (the malfunction or a runaway program). * If signals are input from external sources when the microcontroller power supply is unstable, select the higher capacity voltage (N-channel open drain) output type for the input pin, and add a damping resistor close to the pin. * When the external signals are input to pins, the chattering of the key must be removed. * The data should be output periodically from the pins using the output instruction (OP or SPB). * To read the data input to the I/O common pins, the output value should be set to `1' using the output instruction (OP or SPB). 7. Unused Pins * See the user's manual for each microcontrollers or the final edition of the specification sheet.
PS No.6829-22/22

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