Text preview for : LC863328A.pdf part of Sanyo LC863328A 8-Bit Single Chip Microcontroller



Back to : LC863328A.pdf | Home

Ordering number : ENN*6695

CMOS IC

LC863332/28/24/20/16A
8-Bit Single Chip Microcontroller
Preliminary Overview
The LC863332/28/24/20/16A are 8-bit single chip microcontrollers with the following on-chip functional blocks: - CPU : Operable at a minimum bus cycle time of 0.424µs - On-chip ROM capacity Program ROM : 32K/28K/24K/20K/16K bytes CGROM : 16K bytes - On-chip RAM capacity : 512 bytes - OSD RAM : 352 × 9 bits - Five channels × 8-bit AD Converter - Three channels × 7-bit PWM - Two 16-bit timer/counters, 14-bit base timer - 8-bit synchronous serial interface circuit - IIC-bus compliant serial interface circuit (Multi-master type) - ROM correction function - 15-source 9-vectored interrupt system - Integrated system clock generator and display clock generator X'tal oscillator (32.768kHz) for PLL reference is used for TV control. All of the above functions are fabricated on a single chip.

Ver.1.01 N1798

91400 RM (IM) HS No.6695-1/20

LC863332/28/24/20/16A

Features
(1) Read-Only Memory (ROM) : 32768 × 8 bits / 28672 × 8 bits / 24576 × 8 bits 20480 × 8 bits / 16384 × 8 bits for program 16128 × 8 bits for CGROM 512 × 8 bits (including 128 bytes for ROM correction function) 352 × 9 bits (for CRT display)

(2) Random Access Memory (RAM) :

(3) OSD functions - Screen display : 36 characters × 16 lines (by software) - RAM : 352 words (9 bits per word) Display area : 36 words × 8 lines Control area : 8 words × 8 lines - Characters Up to 252 kinds of 16 × 32 dot character fonts (4 characters including 1 test character are not programmable) Each font can be divided into two parts and used as two fonts : a 16 × 17 dot and 8 × 9 dot character font - Various character attributes Character colors : 16 colors Character background colors : 16 colors Fringe / shadow colors : 16 colors Full screen colors : 16colors Rounding Underline Italic character (slanting) - Attribute can be changed without spacing - Vertical display start line number can be set for each row independently (Rows can be overlapped) - Horizontal display start position can be set for each row independently - Horizontal pitch (bit 9 - 16)*1 and vertical pitch (bit-32) can be set for each row independently - Different display modes can be set for each row independently Caption · Text mode / OSD mode 1 / OSD mode 2 (Quarter size) / Simplifed graphic mode - Ten character sizes *1 Horez. × Vert. = (1 × 1), (1 × 2), (2 × 2), (2 × 4), (0.5 × 0.5) (1.5 × 1), (1.5 × 2), (3 × 2), (3 × 4), (0.75 × 0.5) - Shuttering and scrolling on each row - Simplified Graphic Display *1 Note : range depends on display mode : refer to the manual for details. (4) Bus Cycle Time / Instruction-Cycle Time Bus cycle time 0.424µs 7.5µs 183.1µs Instruction cycle time 0.848µs 15.0µs 366.2µs System clock oscillation Internal VCO (Ref : X'tal 32.768kHz) Internal RC Crystal Oscillation Frequency 14.156MHz 800kHz 32.768kHz Voltage 4.5V to 5.5V 4.5V to 5.5V 4.5V to 5.5V

(5) Ports - Input / Output Ports : 5 ports (28 terminals) Data direction programmable in nibble units : 1 port (8 terminals) (If the N-ch open drain output is selected by option, the corresponding port data can be read in output mode.) Data direction programmable for each bit individually : 4 ports (20 terminals) - Input port : 1 port (1 terminal)

No.6695-2/20

LC863332/28/24/20/16A (6) AD converter - 5 channels × 8-bit AD converters (7) Serial interfaces - IIC-bus compliant serial interface (Multi-master type) Consists of a single built-in circuit with two I/O channels. internally. - Synchronous 8-bit serial interface (8) PWM output - 3 channels × 7-bit PWM (9) Timer - Timer 0 : 16-bit timer/counter With 2-bit prescaler + 8-bit programmable prescaler Mode 0 : Two 8-bit timers with a programmable prescaler Mode 1 : 8-bit timer with a programmable prescaler + 8-bit counter Mode 2 : 16-bit timer with a programmable prescaler Mode 3 : 16-bit counter The resolution of timer is 1 tCYC. - Timer 1 : 16-bit timer/PWM Mode 0 : Two 8-bit timers Mode 1 : 8-bit timer + 8-bit PWM Mode 2 : 16-bit timer Mode 3 : Variable bit PWM (9 to 16 bits) In mode0/1,the resolution of Timer1/PWM is 1 tCYC In mode2/3,the resolution is selectable by program; tCYC or 1/2 tCYC - Base timer Generate every 500ms overflow for a clock application (using 32.768kHz crystal oscillation for the base timer clock) Generate every 976µs, 3.9ms, 15.6ms, 62.5ms overflow (using 32.768kHz crystal oscillation for the base timer clock) Clock for the base timer is selectable from 32.768kHz crystal oscillation, system clock or programmable prescaler output of Timer 0 (10) Remote control receiver circuit (connected to the P73/INT3/T0IN terminal) - Noise rejection function - Polarity switching (11) Watchdog timer External RC circuit is required Interrupt or system reset is activated when the timer overflows (12) ROM correction function Max 128 bytes / 2 addresses (13) Interrupts - 15 sources 9 vectored interrupts 1. External Interrupt INT0 2. External Interrupt INT1 3. External Interrupt INT2, Timer/counter T0L (Lower 8 bits) 4. External Interrupt INT3, base timer 5. Timer/counter T0H (Upper 8 bits) 6. Timer T1H,T1L 7. SIO0 8. Vertical synchronous signal interrupt ( VS ), horizontal line ( HS ), AD 9. IIC, Port 0

The two data lines and two clock lines can be connected

No.6695-3/20

LC863332/28/24/20/16A - Interrupt priority control Three interrupt priorities are supported (low, high and highest) and multi-level nesting is possible. Low or high priority can be assigned to the interrupts from 3 to 9 listed above. For the external interrupt INT0 and INT1, high or highest priority can be set. (14) Sub-routine stack level - A maximum of 128 levels (stack is built in the internal RAM) (15) Multiplication/division instruction - 16 bits × 8 bits (7 instruction cycle times) - 16 bits / 8 bits (7 instruction cycle times) (16) 3 oscillation circuits - Built-in RC oscillation circuit used for the system clock - Built-in VCO circuit used for the system clock and OSD - X'tal oscillation circuit used for base timer, system clock and PLL reference (17) Standby function - HALT mode The HALT mode is used to reduce the power dissipation. In this operation mode, the program execution is stopped. This mode can be released by the interrupt request or the system reset. - HOLD mode The HOLD mode is used to stop the oscillations; RC (internal), VCO, and X'tal oscillations. This mode can be released by the following conditions. · Pull the reset terminal ( RES ) to low level. · Feed the selected level to either P70/INT0 or P71/INT1. · Input the interrupt condition to Port 0. (18) Package - DIP42S - QIP48E (19) Development tools - Flash EEPROM: - Evaluation chip: - Emulator:

LC86F3348A LC863096 EVA86000 (main) + ECB863200 (evaluation chip board) + POD863300 (pod: DIP42S) or POD863301 (QIP48E)

No.6695-4/20

LC863332/28/24/20/16A

System Block Diagram

Interrupt Control

IR

PLA

Standby Control

ROM

RC VCO

Clock Generator

X'tal

PC PLL

IIC

ROM Correct Control

ACC

SIO0

XRAM

B Register

Timer 0

Bus Interface

C Register

Timer 1

Port 1 ALU

Base Timer

Port 6

ADC

Port 7

PSW

INT0-3 Noise Rejection Filter

Port 8

RAR

PWM CGROM OSD Control Circuit

RAM

Stack Pointer VRAM Port 0

Watch Dog Timer

No.6695-5/20

LC863332/28/24/20/16A

Pin Assignment
· DIP42S
P10/SO0 P11/SI0 P12/SCK0 P13/PWM1 P14/PWM2 P15/PWM3 P16 P17/PWM VSS XT1 XT2 VDD P84/AN4 P85/AN5 P86/AN6 P87/AN7 RES FILT P83/AN3 VS HS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 P07 P06 P05 P04 P03 P02 P01 P00 P73/INT3/T0IN P72/INT2/T0IN P71/INT1 P70/INT0 P63/SCLK1 P62/SDA1 P61/SCLK0 P60/SDA0 I BL B G R

Package Dimension (unit : mm)
3025B

SANYO : DIP-42S(600mil)

· QIP48E
P14/PWM2 P13/PWM1 P12/SCK0

P10/SO0

P11/SI0

P07

P06

P05

P04

P03

NC

NC

48

47

46

45

44

43

42

41

40

39

38

37

Package Dimension (unit : mm)
36 35 34 33 32 31 30 29 28 27 26 P02 P01 P00 NC P73/INT3/T0IN P72/INT2/T0IN P71/INT1 P70/INT0 P63/SCLK1 P62/SDA1 P61/SCLK0 P60/SDA0

P15/PWM3 P16 P17/PWM VSS XT1 XT2 VDD NC P84/AN4 P85/AN5 P86/AN6 P87/AN7

1 2 3 4 5 6 7 8 9 10 11 13 14 15 16 17 18 19 20 21 22 23 24 12

3156

25

FILT

RES

VS

P83/AN3

NC

HS

BL

G

R

B

I

NC

SANYO : QIP-48E

No.6695-6/20

LC863332/28/24/20/16A

Pin Description
Pin Description Table Terminal I/O VSS XT1 I XT2 O VDD I RES FILT O I VS I HS R O G O B O I O BL O Port 0 P00 - P07 Function Description Negative power supply Input terminal for crystal oscillator Output terminal for crystal oscillator Positive power supply Reset terminal Filter terminal for PLL Vertical synchronization signal input terminal Horizontal synchronization signal input terminal Red (R) output terminal of RGB image output Green (G) output terminal of RGB image output Blue (B) output terminal of RGB image output Intensity ( I ) output terminal of RGB image output Fast blanking control signal Switch TV image signal and OSD image signal ·8-bit input/output port, Input/output can be specified in nibble unit ·Other functions HOLD release input Interrupt input ·8-bit input/output port Input/output can be specified in a bit ·Other functions P10 SIO0 data output P11 SIO0 data input/bus input/output P12 SIO0 clock input/output P13 PWM1 output P14 PWM2 output P15 PWM3 output P17 Timer1 (PWM) output ·4-bit input/output port Input/output can be specified for each bit ·Other functions P60 IIC0 data I/O P61 IIC0 clock output P62 IIC1 data I/O P63 IIC1 clock output Option

I/O

Pull-up resistor provided/not provided Output Format CMOS/Nch-OD Output Format CMOS/Nch-OD

Port 1 P10 - P17

I/O

Port 6 P60 - P63

I/O

No.6695-7/20

LC863332/28/24/20/16A Terminal Port 7 P70 P71 - P73 I/O I/O Function Description ·4-bit input/output port Input or output can be specified for each bit ·Other function P70 INT0 input/HOLD release input/ Nch-Tr. output for wachdog timer P71 INT1 input/HOLD release input P72 INT2 input/Timer 0 event input P73 INT3 input (noise rejection filter connected)/ Timer 0 event input Interrupt receiver format, vector addresses rising falling rising/ H level L level vector falling INT0 enable enable disable enable enable 03H INT1 enable enable disable enable enable 0BH INT2 enable enable enable disable disable 13H INT3 enable enable enable disable disable 1BH ·1-bit input port 4-bit input/output port Input or output can be specified for each bit ·Other function AD converter input port (5 lines) unused terminal Leave open Option

Port 8 P83 P84-P87 NC

I I/O -

· Output form and existance of pull-up resistor for all ports can be specified for each bit. · Programmable pull-up resistor is always connected regardless of port option, CMOS or N-ch open drain output in port 1. · Port status in reset Terminal Port 0 Port 1 I/O I I Pull-up resistor status at selecting pull-up option Pull-up resistor OFF, ON after reset release Programmable pull-up resistor OFF

No.6695-8/20

LC863332/28/24/20/16A 1. Absolute Maximum Ratings at VSS=0V and Ta=25°C Parameter Supply voltage Input voltage Output voltage Input/output voltage High level output current Peak output current Total output current Symbol VDDMAX VI(1) VO(1) VIO IOPH(1) IOPH(2) IOAH(1) IOAH(2) IOAH(3) Low level output current Peak output current Total output current IOPL(1) IOPL(2) IOPL(3) IOAL(1) IOAL(2) IOAL(3) Maximum power dissipation Operating temperature range Storage temperature range Pdmax Topr Pins VDD · RES , HS , VS , P83 R, G, B, I, BL, FILT ·Ports 0, 1, 6, 7, 84 to 87 ·Ports 0, 1, 7, 84 to 87 R, G, B, I, BL ·Ports 0, 1 Ports 7, 84 to 87 R, G, B, I, BL Ports 0, 1, 6, 84 to 87 Port 7 R, G, B, I, BL Ports 0, 1 Ports 6, 7, 84 to 87 R, G, B, I, BL DIP42S QIP48E Conditions Ratings typ. unit V

VDD[V]

min. -0.3 -0.3 -0.3 -0.3

max. +7.0 VDD+0.3 VDD+0.3 VDD+0.3

·CMOS output ·For each pin. ·CMOS output ·For each pin. The total of all pins. The total of all pins. The total of all pins. For each pin. For each pin. For each pin. The total of all pins. The total of all pins. The total of all pins. Ta=-10 to +70°C

-4 -5 -20 -10 -15 20 15 5 40 40 15 800 400 +70

mA

mW °C

-10

Tstg

-55

+125

No.6695-9/20

LC863332/28/24/20/16A 2. Recommended Operating Range at Ta= -10°C to +70°C, VSS=0V Parameter Operating supply voltage range Hold voltage Symbol VDD(1) VDD(2) VHD VDD VDD Pins Conditions 0.844µs tCYC 0.852µs 4µs tCYC 400µs RAMs and the registers data are kept in HOLD mode. Output disable Output disable Ratings typ. unit V

VDD[V]

min. 4.5 4.5 2.0

max. 5.5 5.5 5.5

High level input voltage

VIH(1) VIH(2)

Port 0 (Schumitt) ·Ports 1,6 (Schumitt) ·Port 7 (Schumitt) port input/interrupt · HS , VS , RES (Schumitt) Port 70 Watchdog timer input ·Port 8 port input Port 0 (Schumitt) ·Ports 1,6 (Schumitt) ·Port 7 (Schumitt) port input/interrupt · HS , VS , RES (Schumitt) Port 70 Watchdog timer input Port 8 port input

4.5 - 5.5 4.5 - 5.5

0.6VDD 0.75VDD

VDD VDD

VIH(3) VIH(4) Low level input voltage VIL(1) VIL(2)

Output disable Output disable Output disable Output disable

4.5 - 5.5 4.5 - 5.5 4.5 - 5.5 4.5 - 5.5

VDD-0.5 0.7VDD VSS VSS

VDD VDD 0.2VDD 0.25VDD

VIL(3) VIL(4) Operation cycle time tCYC(1) tCYC(2)

Output disable Output disable ·All functions operating ·AD converter operating ·OSD is not operating ·OSD and AD converter are not operating Internal RC oscillation

4.5 - 5.5 4.5 - 5.5 4.5 - 5.5 4.5 - 5.5

VSS VSS 0.844 0.844 0.848

0.6VDD 0.3VDD 0.852 30 µs

tCYC(3)

4.5 - 5.5

0.844

400

Oscillation frequency range

FmRC

4.5 - 5.5

0.4

0.8

3.0

MHz

No.6695-10/20

LC863332/28/24/20/16A 3. Electrical Characteristics at Ta=-10°C to +70°C, VSS=0V Parameter High level input current Symbol IIH(1) Pins Ports 0, 1, 6, 7, 8 Conditions ·Output disable ·Pull-up MOS Tr. OFF ·VIN=VDD (including the offleak current of the output Tr.) ·VIN=VDD ·Output disable ·Pull-up MOS Tr. OFF ·VIN=VSS (including the offleak current of the output Tr.) VIN=VSS IOH=-1.0mA Ratings typ. unit µA

VDD[V] 4.5 - 5.5

min.

max. 1

IIH(2) Low level input current IIL(1)

· RES · HS , VS Ports 0, 1, 6, 7, 8

4.5 - 5.5 4.5 - 5.5 -1

1

IIL(2) High level output voltage VOH(1)

Low level output voltage

VOH(2) VOL(1)

VOL(2)

VOL(3) VOL(4) VOL(5) Rpu RBS

Pull-up MOS Tr. resistance Bus terminal short circuit resistance (SCL0-SCL1, SDA0-SDA1) Hysteresis voltage Pin capacitance

· RES · HS , VS ·CMOS output of ports 0, 1, 71 - 73, 84 - 87 R, G, B, I, BL Ports 0, 1, 71 - 73, 84 - 87 Ports 0, 1, 71 - 73, 84 - 87 ·R, G, B, I, BL ·Port 6 Port 6 Port 70 ·Ports 0, 1, 7, 8 ·P60-P62 ·P61-P63

4.5 - 5.5 4.5 - 5.5

-1 VDD-1 V

IOH=-0.1mA IOL=10mA

4.5 - 5.5 4.5 - 5.5

VDD-0.5 1.5

IOL=1.6mA

4.5 - 5.5

0.4

IOL=3.0mA IOL=6.0mA IOL=1mA VOH=0.9VDD

4.5 - 5.5 4.5 - 5.5 4.5 - 5.5 4.5 - 5.5 4.5 - 5.5

0.4 0.6 0.4 80 130

13

38

k

VHIS

CP

·Ports 0, 1, 6, 7 · RES · HS , VS All pins

Output disable

4.5 - 5.5

0.1VDD

V

·f=1MHz ·Every other terminals are connected to VSS. ·Ta=25°C

4.5 - 5.5

10

pF

No.6695-11/20

LC863332/28/24/20/16A 4. Serial Input/Output Characteristics at Ta= -10°C to +70°C, VSS=0V Parameter Cycle Input clock Low Level pulse width High Level pulse width Cycle Symbol tCKCY(1) tCKL(1) tCKH(1) tCKCY(2) tCKL(2) tCKH(2) tICK SI0 ·SCK0 ·SCLK0 ·Use pull-up resistor (1k) when Nch opendrain output. ·Refer to figure 4. ·Data set-up to SCK0. ·Data hold from SCK0. ·Refer to figure 4. ·Data hold from SCK0. ·Use pull-up resistor (1k) when Nch opendrain output. ·Refer to figure 4. 4.5 - 5.5 Pins ·SCK0 ·SCLK0 Conditions Refer to figure 4. Ratings typ. unit tCYC

VDD[V] 4.5 - 5.5

min. 2 1 1 2

max.

Serial clock

Low Level pulse width High Level pulse width Data set up time Serial input

Output clock

1/2tCKCY 1/2tCKCY 4.5 - 5.5 0.1 µs

Data hold time

tCKI

0.1

Output delay time tCKO(1) (Using external clock) Output delay time tCKO(2) (Using internal clock)

SO0

4.5 - 5.5

Serial output

7/12tCYC +0.2 1/3tCYC +0.2

SO0

4.5 - 5.5

5. IIC Input/Output Conditions at Ta=-10°C to +70°C, VSS=0V Parameter SCL Frequency BUS free time between stop - start HOLD time of start, restart condition L time of SCL H time of SCL Set-up time of restart condition HOLD time of SDA Set-up time of SDA Rising time of SDA, SCL Falling time of SDA, SCL Set-up time of stop condition (Note) Symbol Standard min. max. 0 100 4.7 4.0 4.7 4.0 4.7 0 250 1000 300 4.0 High speed min. max. 0 400 1.3 0.6 1.3 0.6 0.6 0 0.9 100 20+0.1Cb 300 20+0.1Cb 300 0.6 unit kHz µs µs µs µs µs µs ns ns ns µs

fSCL tBUF tHD;STA tLOW tHIGH tSU;STA tHD;DAT tSU;DAT tR tF tSU;STO Refer to figure 9 Cb : Total capacitance of all BUS (unit : pF)

No.6695-12/20

LC863332/28/24/20/16A 6. Pulse Input Conditions at Ta=-10°C to +70°C, VSS=0V Parameter High/low level pulse width Symbol tPIH(1) tPIL(1) tPIH(2) tPIL(2) Pins ·INT0, INT1 ·INT2/T0IN INT3/T0IN (1/1 is selected for noise rejection clock.) INT3/T0IN (1/16 is selected for noise rejection clock.) INT3/T0IN (1/64 is selected for noise rejection clock.)
RES HS , VS

Conditions ·Interrupt acceptable ·Timer0-countable ·Interrupt acceptable ·Timer0-countable

VDD[V] 4.5 - 5.5 4.5 - 5.5

min. 1 2

Ratings typ.

max.

unit tCYC

tPIH(3) tPIL(3)

·Interrupt acceptable ·Timer0-countable

4.5 - 5.5

32

tPIH(4) tPIL(4)

·Interrupt acceptable ·Timer0-countable

4.5 - 5.5

128

tPIL(5) tPIH(6) tPIL(6)

Rising/falling time

tTHL tTLH

HS

Reset acceptable ·Display position controllable (Note) ·The active edge of HS and VS must be apart at least 1 tCYC. ·Refer to figure 6. Refer to figure 6.

4.5 - 5.5 4.5 - 5.5

200 8

µs

4.5 - 5.5

500

ns

7. AD Converter Characteristics at Ta=-10°C to + 70°C, VSS=0V Parameter Resolution Absolute precision Conversion time Analog input voltage range Analog port input current Symbol N ET tCAD VAIN IAINH IAINL AN3 - AN7 VAIN=VDD VAIN=VSS Pins Conditions (Note 3) ADCR2=0 (Note 4) ADCR2=1 (Note 4) VSS 16 32 VDD 1 -1 Ratings typ. 8 unit bit LSB tCYC V µA

VDD[V] 4.5 ­ 5.5

min.

max. ±1.5

(Note 3) Absolute precision does not include quantizing error (1/2LSB). (Note 4) Conversion time is the time till the complete digital conversion value for analog input value is set to a register after the instruction to start conversion is sent.

No.6695-13/20

LC863332/28/24/20/16A 8. Sample Current Dissipation Characteristics at Ta=-10°C to +70°C, VSS=0V The sample current dissipation characteristics is the measurement result of Sanyo provided evaluation board when the recommended circuit parameters shown in the sample oscillation circuit characteristics are used externally. The currents through the output transistors and the pull-up MOS transistors are ignored. Parameter Current dissipation during basic operation (Note 3) Symbol IDDOP(1) Pins VDD Conditions ·FmX'tal=32.768kHz X'tal oscillation ·System clock : VCO ·VCO for OSD operating ·Internal RC oscillation stops ·HALT mode ·FmX'tal=32.768kHz X'tal oscillation ·System clock : VCO ·VCO for OSD stops ·Internal RC oscillation stops ·HALT mode ·FmX'tal=32.768kHz X'tal oscillation ·VCO for system stops ·VCO for OSD stops ·System clock : Internal RC ·HALT mode ·FmX'tal=32.768kHz X'tal oscillation ·VCO for system stops ·VCO for OSD stops ·System clock : X'tal ·HOLD mode ·All oscillation stops. Ratings typ. 17 unit mA

VDD[V] 4.5 - 5.5

min.

max. 30

Current dissipation IDDHALT(1) in HALT mode (Note 3)

VDD

4.5 - 5.5

7

12

mA

IDDHALT(2)

VDD

4.5 - 5.5

300

1200

µA

IDDHALT(3)

VDD

4.5 - 5.5

50

200

Current dissipation in HOLD mode (Note 3)

IDDHOLD

VDD

4.5 - 5.5

0.05

20

µA

(Note 3) The currents through the output transistors and the pull-up MOS transistors are ignored.

No.6695-14/20

LC863332/28/24/20/16A Recommended Oscillation Circuit and Sample Characteristics The sample oscillation circuit characteristics in the table below is based on the following conditions: · Recommended circuit parameters are verified by an oscillator manufacturer using a Sanyo provided oscillation evaluation board. · Sample characteristics are the result of the evaluation with the recommended circuit parameters connected externally. Recommended oscillation circuit and sample characteristics (Ta = -10 to +70°C) Frequency 32.768kHz Notes Manufacturer Seiko Epson Oscillator C-002RX Recommended circuit parameters C1 18pF C2 18pF Rf Open Rd 390k Operating supply voltage range 4.5 ­ 5.5V Oscillation stabilizing time typ. max 1.00s 1.50s Notes

The oscillation stabilizing time period is the time until the VCO oscillation for the internal system becomes stable after the following conditions. (Refer to Figure 2.) 1. The VDD becomes higher than the minimum operating voltage after the power is supplied. 2. The HOLD mode is released.

The sample oscillation circuit characteristics may differ applications. manufacturer with the following notes in your mind.
·

For further assistance, please contact with oscillator

Since the oscillation frequency precision is affected by wiring capacity of the application board, etc., adjust the oscillation frequency on the production board. · The above oscillation frequency and the operating supply voltage range are based on the operating temperature of -10°C to +70°C. For the use with the temperature outside of the range herein, or in the applications requiring high reliability such as car products, please consult with oscillator manufacturer. · When using the oscillator which is not shown in the sample oscillation circuit characteristics, please consult with Sanyo sales personnel. Since the oscillation circuit characteristics are affected by the noise or wiring capacity because the circuit is designed with low gain in order to reduce the power dissipation, refer to the following notices. · The distance between the clock I/O terminal (XT1 terminal XT2 terminal) and external parts should be as short as possible. · The capacitors' VSS should be allocated close to the microcontroller's GND terminal and be away from other GND. · The signal lines with rapid state changes or with large current should be allocated away from the oscillation circuit.

XT1

XT2

Rf Rd C1 X'tal C2

Figure 1

Recommended oscillation circuit.

No.6695-15/20

LC863332/28/24/20/16A

Power supply

VDD VDD limit 0V Reset time

RES

Internal RC
resonato oscillation

XT1,XT2 tmsVCO VCO for system stable

Operation mode

Unfixed

Reset

Instruction execution mode



HOLD release signal

Valid

Internal RC
resonato oscillation

XT1,XT2 tmsVCO VCO for system stable

Operation mode

HOLD

Instruction execution mode

Figure 2 Oscillation stabilizing time

No.6695-16/20

LC863332/28/24/20/16A

VDD

RRES

RES CRES

(Note)

Determine the CRES, RRES value to generate more than 200µs reset time.

Figure 3

Reset circuit

0.5VDD

< AC timing measurement point >

tCKCY tCKL SCK0 tICK SI0 tCKO SO0 SB0 50pF tCKI tCKH

VDD

1K

< Timing > Figure 4 Serial input / output test condition

< Test load >

No.6695-17/20

LC863332/28/24/20/16A

tPIL (1)-(5)

tPIH (1)-(4)

Figure 5

Pulse input timing condition ­ 1

tPIL(6) HS 0.75VDD 0.25VDD tTLH VS tPIL(6)

more than ±1tCYC

Figure 6

Pulse input timing condition - 2

LC863332A 10k HS HS C536

Figure 7

Recommended Interface circuit

No.6695-18/20

LC863332/28/24/20/16A

100 FILT + 2.2µF -

1M

33000pF

Figure 8 (Note)

FILT recommended circuit

Place FILT parts on board as close to the microcontroller as possible.

P

S

Sr

P

SDA
tBUF tHD;STA tR tF tHD;STA tsp

SCL

tLOW tHD;DAT

tHIGH tSU;DAT tSU;STA tSU;STO

S : start condition P : stop condition Sr : restart condition

tsp : Spike suppression

Standard mode : not exist High speed mode : less than 50ns

Figure 9

IIC timing

No.6695-19/20

LC863332/28/24/20/16A memo:

PS No.6695-20/20

This datasheet has been download from: www.datasheetcatalog.com Datasheets for electronics components.