SANYO LC86E5420

Ordering number : ENN*6805
LC86E5420
CMOS IC
LC86E5420
8-Bit Single Chip Microcontroller
Preliminary
Overview
The LC86E5420 is a CMOS 8-bit single chip microcontroller with UVEPROM of the LC865500 / LC865400
series.
This microcontroller has the function and the pin discription of the LC865500 / LC865400 series mask ROM
version, and the 20K-byte EPROM. The program data is rewritable. It is suitable to develop the program.
Features
(1) Option switching by EPROM data
The option function of the LC865400 series can be specified by the EPROM data.
The LC86E5420 can be checked the functions of the trial pieces using the mass production board.
(2) Internal EPROM capacity
: 20736 bytes
(3) Internal RAM capacity
: 512 bytes
Mask ROM version
LC865520
LC865516
LC865512
LC865508
LC865504
LC865412
LC865408
LC865404
PROM capacity
20480 bytes
16384 bytes
12288 bytes
8192 bytes
4096 bytes
12288 bytes
8192 bytes
4096 bytes
RAM capacity
512 bytes
512 bytes
512 bytes
512 bytes
512 bytes
224 bytes
224 bytes
224 bytes
(4) Operating supply voltage : 4.5V to 6.0V
(5) Instruction cycle time
: 1.0µs to 366µs
(6) Operating temperature
: +10°C to +40°C
(7) The pin compatible with the LC865400 series mask ROM devices
(8) Applicable mask ROM version
: LC865520 / LC865516 / LC865512 / LC865508 / LC865504
LC865412 / LC865408 / LC865404
(9) Factory shipment
: DIC42S (with window)
QIC48E (with window)
Any and all SANYO products described or contained herein do not have specifications that can handle
applications that require extremely high levels of reliability, such as life-support systems, aircraft's
control systems, or other applications whose failure can be reasonably expected to result in serious
physical and/or material damage. Consult with your SANYO representative nearest you before using
any SANYO products described or contained herein in such applications.
SANYO assumes no responsibility for equipment failures that result from using products at values that
exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other
parameters) listed in products specifications of any and all SANYO products described or contained
herein.
SANYO Electric Co.,Ltd. Semiconductor Company
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110-8534 JAPAN
Ver. 2.00
31395
D2000 RM (IM) FS No.6805-1/21
LC86E5420
Notice for use
The LC86E5420 is provided for the first release and small shipping of the LC865500 / LC865400 series.
At using, take notice of the followings.
(1) A point of difference the LC86E5420 and the LC865500 / LC865400 series
Item
Operation after reset
releasing
LC86E5420
The option is specified by degreess until 3ms
after going to a 'H' level to the reset terminal.
The program is executed from 00H of the
program counter.
4.5V to 6.0V
LC865520 / 16 / 12 / 08 / 04 / LC865412 / 08 / 04
The program is executed from 00H of
the program counter immediately after
going to a 'H' level to the reset terminal.
Operating supply
2.5V to 6.0V
voltage range (VDD)
Operating temperature +10 to +40°C
-- 30 to +70°C
range (Topg)
Power dissipation
Refer to 'electrical characteristics' on the semiconductor news.
The LC86P5420 functions same as the followings while resetting ; LC865520 / 16 / 12 / 08 / 04, LC865412 / 08 /
04.
The LC86E5420 uses 256 bytes that is addressed on 7F00H to 7FFFH in the program memory as the option
configulation data area.
• A kind of the option corresopnding of the LC86E5420
A kind of option
Input / output form of
input / output ports
Pins, Circuits
Port 0
Port 1
*1
Port 3
Contents of the option
1. N-channel open drain output
2. CMOS output
1. Pull-up MOS Tr. provided
2. Pull-up MOS Tr. not provided
1. Input
: Programmable pull-up MOS Tr.
Output : N-channel open drain
2. Input
: Programmable pull-up MOS Tr.
Output : CMOS
1. Input
: No Programmable pull-up
MOS Tr.
Output : N-channel open drain
2. Input
: Programmable pull-up MOS Tr.
Output : CMOS
*1
*2
*1
*1) Specified in bit
*2) Specified in nibble unit. Pull-up MOS Tr. is not provided in N-channel open drain output port.
(2) Option
The option data is created by the option specified program "SU86K.EXE". The created option data is
linked to the program area by the linkage loader "L86K.EXE".
No.6805-2/21
LC86E5420
(3) ROM space
The LC86E5420 and LC865500 / LC865400 series use 256 bytes that is addressed on 7F00H to 7FFFH in the
program memory as the option specified data area. These program memory capacity are 20480 bytes that is
addressed on 0000H to 4FFFH.
7FFFH
7F00H
6FFFH
5FFFH
4EFFH
3FFFH
2FFFH
1FFFH
0FFFH
Option Data area
256 bytes
Option
Data area
Option
Data area
Option
Data area
Program Area
Program Area
Program Area
Program Area
Option
Data area
Program Area
20K bytes
16K bytes
12K bytes
8K bytes
4K bytes
LC865520
LC865516
LC865512
LC865412
LC865508
LC865408
LC865504
LC865404
0000H
How to use
(1) Create a programming data for LC86E5420
Programming data for EPROM of the LC86E5420 is required.
Debugged evaluation file (EVA file) must be converted to an INTEL-HEX formatted file (HEX file) with file
converter program, EVA2HEX.EXE. The HEX file is used as the programming data for the LC86E5420.
(2) How to program for the EPROM
The LC86E5420 can be programmed by the EPROM programmer with attachment ; W86EP5420D,
W86EP5420Q.
• Recommended EPROM programmer
Productor
Advantest
Andou
AVAL
Minato electronics
EPROM programmer
R4945, R4944, R4943
AF-9704
PKW-1100, PKW-3000
MODEL1890A
• "27512 (Vpp=12.5V) Intel high speed programming" mode available. The address must be set to
"0000H to 7FFH" and a jumper (DASEC) must be set to 'OFF' at programming.
No.6805-3/21
LC86E5420
(3) How to use the data security function
"Data security" is the disabled function to read the data of the EPROM.
The following is the process in order to execute data security.
1. Set 'ON' the jumper of attachment.
2. Program again. Then the EPROM programmer displays the error. The error means normally activity of the
data security. It is not a trouble of the EPROM programmer or the LSI.
Notes
• Data security is not executed when the data of all address have 'FFH' at the sequence 2 above.
• The programming by sequential operation "BLANK→PROGRAM→VERIFY" cannot be executed data
security at the sequence 2 above.
• Set 'OFF' to the jumper after executing the data security.
(4) How to eliminate
The programming data can be erased by using the EPROM eraser.
(5) Shielding
The UVEPROM (ultraviolet erasable and programmable ROM) is in it. Put the seal on the window in use.
Data security
Data security
Not data security
W86EP5420D
Not data security
W86EP5420Q
No.6805-4/21
LC86E5420
Pin Assignment
• DIC42S
P00
P01
P02
1
42
2
41
3
40
P03
P04
P05
P06
P07
P70 / INT0
RES
XT1 / P74
XT2 / P75
VSS
CF1
CF2
VDD
4
39
5
38
6
37
7
36
8
35
9
34
10
33
11
32
12
31
13
30
14
29
15
28
16
27
17
26
18
25
19
24
P80 / AN0
P81 / AN1
P82 / AN2
P83 / AN3
P84 / AN4
20
23
21
22
P17 / PWM0
P16 / BUZ
P15 / SCK1
P14 / S11 / SB1
P13 / SO1
P12 / SCK0
P11 / SI0 / SB0
P10 / SO0
P36
P35
P34
P33
P32
P31
P30
P73 / INT3 / T0IN
P72 / INT2 / T0IN
P71 / INT1
P87 / AN7
P86 / AN6
P85 / AN5
ILC00015
No.6805-5/21
LC86E5420
P33
P32
P31
P30
P73 / INT3 / T0IN
28
27
26
25
P34
31
NC
P35
32
29
P36
33
30
P11 / SI0 / SB0
P10 / SO0
34
P12 / SCK0
35
36
• QIC48E
44
17
P84 / AN4
P02
45
16
P83 / AN3
P03
46
15
P82 / AN2
P04
47
14
P81 / AN1
NC
48
13
P80 / AN0
VDD
CF2
CF1
12
NC
P01
11
18
9
10
43
VSS
P85 / AN5
P00
8
19
XT2 / P75
42
7
P86 / AN6
NC
NC
20
6
41
XT1 / P74
P87 / AN7
P17 / PWM0
5
21
4
40
RES
P7I / INT1
P16 / BUZ
P70 / INT0
22
3
39
P07
P72 / INT2 / T0IN
P15 / SCK1
2
NC
23
1
24
38
P06
37
P05
P13 / SO1
P14 / SI1 / SB1
ILC00010
No.6805-6/21
LC86E5420
System Block Diagram
Interrupt Control
IR
Stand-by Control
RC
X’tal
A14--A0
D7--D0
TA
CE
OE
DASEC
EPROM
Control
Clock
Generator
CF
PLA
EPROM(32KB)
Base Timer
Bus Interface
SIO0
Port 1
SIO1
Port 3
Timer0
Port 7
Timer1
Port 8
PC
ACC
B Register
C Register
ALU
ADC
INT0 to 3
Noise Filter
PSW
RAR
RAM
Stack Pointer
Port 0
Watchdog Timer
ILC00035
No.6805-7/21
LC86E5420
Pin Description
Pin name I / O
Function description
Option
VSS
Power pin (-- )
VDD
Power pin (+)
PORT0
I / O •8-bit input / output port
•Pull-up resistor :
P00 to P07
Input / output in nibble units
Provided / Not provided
•Input for port 0 interrupt
(specify every 4-bit)
•Input for HOLD release
•Output form :
•15V withstand at N-channel open drain
CMOS / N-channel open drain
output
(specify in bit)
PORT1
I / O •8-bit input / output port
•Output form :
CMOS / N-channel open drain.
P10 to P17
Input / output can be specified in bit unit.
•Other pin functions
(specify in bit)
P10 SIO0 data output
P11 SIO0 data input / bus input / output
P12 SIO0 clock input / output
P13 SIO1 data output
P14 SIO1 data input / bus input / output
P15 SIO1 clock input / output
P16 Buzzer output
P17 Timer1 (PWM0) output
PORT3
I / O •7-bit input / output port
•Pull-up resistor :
P30 to P36
Input / output in bit unit.
Provided / Not provided
•15V withstand at N-channel open drain
•Output form :
output
CMOS / N-channel open drain
PORT7
•4-bit input / output port
Input / output in bit unit.
•2-bit input port
•Other pin functions.
P70 to P73 I / O P70 : INT0 input / HOLD release input /
N-channel Tr. output for watchdog timer
P74, P75
I P71 : INT1 input / HOLD release input
P72 : INT2 input / timer 0 event input
P73 : INT3 input with noise filter / timer 0
event input
P74 : Input pin XT1 for 32.768kHz crystal
oscillation
P75 : Output pin XT2 for 32.768kHz crystal
oscillation
•Interrupt received form, vector address
Rising
High Low
Rising Falling &
Vector
level level
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
PROM mode
Data line
D0 to D7
EPROM control signals
•DASEC (*1)
•OE (*2)
•CE (*3)
No.6805-8/21
LC86E5420
Pin name I / O
Function description
Option
PROM mode
PORT8
P80 to P83 I •4-bit input port
TA (*4)
P84 to P87 I / O •4-bit input / output port
Input / output can be specified in bit unit
•Other function
AD input port (AN7 to AN0)
RES
I Reset pin.
XT1 / P74 I •Input pin for the 32.768kHz cyrstal oscillation
•Other function
XT1 : Input port P74
•In case of non use, connect to VDD
XT1 / P75 O •Output pin for the 32.768kHz cyrstal oscillation
•Other function
XT2 : Input port P75
•In case of non use, connect to VDD at using
as port or unconnect at using as oscillation.
CF1
I Input pin for the ceramic resonator oscillation.
CF2
O Output pin for the ceramic resonator oscillation.
All of port options except the pull-down resistor option of Port 0 can be specified in a bit unit.
*1
*2
*3
*4
Memory select input for data security
Output enable input
Chip enable input
TA → EPROM control signal input
No.6805-9/21
LC86E5420
1. Absolute Maximum Ratings at VSS=0V and Ta=25°C
Parameter
Supply voltage
Input voltage
Input/output
voltage
High
Level
output
current
Peak
output
current
Total
output
current
Symbol
VDD MAX VDD
VI(1)
•Ports 74, 75
•Ports 80, 81, 82, 83
•RES
VIO(1)
•Port 1
•Ports 70, 71, 72, 73
•Ports 84, 85, 86, 87
•Ports 0, 3 at CMOS
output option
VIO(2)
Ports 0, 3 at N-ch
open drain output
option
IOPH
•Ports 0, 1, 3
•Ports 71, 72, 73
•Ports 84, 85, 86, 87
∑IOAH(1) Ports 0,1
∑IOAH(2)
∑IOAH(3)
Low
Level
output
current
Peak
output
current
Total
output
current
IOPL(1)
IOPL(2)
∑IOAL(1)
∑IOAL(2)
∑IOAL(3)
Power
dissipation
(max.)
Operating
temperature
range
Storage
temperature
range
Pins
Pdmax (1)
Pdmax (2)
Conditions
VDD
CMOS output
At each pins
The total all
pins
Port 3
The total all
pins
•Ports 71, 72, 73
The total all
•Ports 84, 85, 86, 87 pins
Ports 0, 1, 3
At each pins
•Ports 70, 71, 72, 73 At each pins
•Ports 84, 85, 86, 87
Ports 0, 1, 70
The total all
pins
Port 3
The total all
pins
•Ports 71, 72, 73
The total all
•Ports 84, 85, 86, 87 pins
DIC42S
Ta=+10 to +40°C
Ta=+10 to +40°C
QIC48E
VDD[v]
min.
-- 0.3
-- 0.3
Ratings
typ.
max.
+7.0
VDD + 0.3
-- 0.3
VDD + 0.3
-- 0.3
15
-- 10
unit
V
mA
-- 30
-- 15
-- 10
20
15
60
40
20
630
410
mW
°C
Topr
+10
+40
Tstg
-- 65
150
No.6805-10/21
LC86E5420
2. Recommended Operating Range at VSS=0V and Ta=+10°C to +40°C
Parameter
Symbol
Pins
Conditions
VDD [V]
min.
4.5
Operating
supply
voltage range
HOLD voltage
VDD
VDD
0.98µs ≤ tCYC
tCYC ≤ 400µs
VHD
VDD
Input high
voltage
VIH(1)
Port 0 at CMOS
output
Port 0 at N-ch
open drain output
option.
•Port 1
•Ports 72, 73
•Port 3 at CMOS
output
Port 3 at N-ch
open drain output
option.
•Port 70
Port input /
interrupt
•Port 71
•RES
Port 70
Watchdog timer
•Port 8
•Ports 74, 75
Port 0 at CMOS
output option
Port 0 at N-ch
open drain output
option.
•Ports 1, 3
•Ports 72, 73
•Port 70
Port input /
interrupt
•Port 71
•RES
Port 70
Watchdog timer
•Port 8
•Ports 74, 75
RAMs and
2.0
Registers hold
voltage at HOLD
mode.
Output disable 4.5 to 6.0 0.33VDD
+1.0
Output disable 4.0 to 6.0 0.75VDD
VIH(2)
VIH(3)
VIH(4)
VIH(5)
VIH(6)
VIH(7)
Input low
voltage
VIL(1)
VIL(2)
VIL(3)
VIL(4)
VIL(5)
VIL(6)
Operation
cycle time
tCYC
Ratings
typ.
max.
6.0
unit
V
6.0
VDD
13.5
Output disable
4.5 to 6.0 0.75VDD
VDD
Output disable
4.5 to 6.0 0.75VDD
13.5
Output disable
4.5 to 6.0 0.75VDD
VDD
Output disable
4.5 to 6.0 0.9VDD
VDD
Output disable
Using as port
Output disable
4.5 to 6.0 0.75VDD
VDD
4.5 to 6.0
VSS
0.2VDD
Output disable
4.5 to 6.0
VSS
0.25VDD
Output disable
4.5 to 6.0
VSS
0.25VDD
Output disable
4.5 to 6.0
VSS
0.25VDD
Output disable
4.5 to 6.0
VSS
Output disable
Using as port
4.5 to 6.0
VSS
0.8VDD
-- 1.0
0.25VDD
4.5 to 6.0
0.98
400
µs
No.6805-11/21
LC86E5420
Parameter
Symbol
Pins
Conditions
VDD [V]
Oscillation fre- FmCF(1)
CF1, CF2
•6MHz (ceramic 4.5 to 6.0
quency range
resonator oscil(Note 1)
lation)
•Refer to figure 1
FmCF(2)
CF1, CF2
•3MHz (ceramic 4.5 to 6.0
resonator oscillation)
•Refer to figure 1
FmRC
RC oscillation 4.5 to 6.0
FsXtal
XT1, XT2
•32.768kHz (crystal 4.5 to 6.0
oscillation)
•Refer to figure 2
Oscillation
tmsCF(1)
CF1, CF2
•6MHz (ceramic 4.5 to 6.0
stable time
resonator oscilperiod
lation)
(Note 1)
•Refer to figure 3
tmsCF(2)
CF1, CF2
•3MHz (ceramic 4.5 to 6.0
resonator oscillation)
•Refer to figure 3
tssXtal
XT1, XT2
•32.768kHz (crystal 4.5 to 6.0
oscillation)
•Refer to figure 3
(Note 1) The oscillation constant is shown on table 1 and table 2.
min.
5.88
Ratings
typ.
6
max.
6.12
2.94
3
3.06
0.3
0.8
32.768
3.0
0.05
0.50
0.10
1.00
1.00
1.50
unit
MHz
kHz
ms
s
No.6805-12/21
LC86E5420
3. Electrical Characteristics at VSS=0V and Ta=+10°C to +40°C
Parameter
Input high
current
Symbol
IIH(1)
IIH(2)
IIH(3)
IIH(4)
Input low
current
IIL(1)
IIL(2)
IIL(3)
Output high
voltage
VOH(1)
VOH(2)
Output low
voltage
Pull-up MOS
Tr. resistor
VOL(1)
VOL(2)
VOL(3)
VOL(4)
Rpu
Hysteresis
voltage
VHIS
Pin
capacitance
CP
Ratings
VDD [V]
min.
typ.
Ports 0, 3 of Open •Output disable 4.5 to 6.0
drain output
•VIN=13.5V
(including offleak current of
the output Tr.)
•Ports 0 without
•Output disable 4.5 to 6.0
pull-up MOS Tr. •Pull-up MOS Tr.
•Ports 1, 3
OFF.
•Ports 70, 71, 72, 73 •VIN=VDD
•Port 8
(including offleak current of
the output Tr.)
RES
VIN=VDD
4.5 to 6.0
Ports 74, 75
VIN=VDD at
4.5 to 6.0
using as port
•Ports 1, 3
•Output disable 4.5 to 6.0
-- 1
•Port 0 without
•Pull-up MOS Tr.
pull-up MOS Tr. OFF.
•Ports 70, 71, 72, 73 •VIN=VDD
•Port 8
(including offleak current of
the output Tr.)
•RES
VIN=VSS
4.5 to 6.0
-- 1
Ports 74, 75
VIN=VSS at
4.5 to 6.0
-- 1
using as port
Ports 0, 1, 3 of
IOH= -- 1.0mA 4.5 to 6.0 VDD-- 1
CMOS output
•Ports 71, 72, 73
IOH= -- 0.1mA 4.5 to 6.0 VDD-- 0.5
•Ports 84, 85, 86, 87
Ports 0, 1, 3
IOL=10mA
4.5 to 6.0
IOL=1.6mA
4.5 to 6.0
•Ports 71, 72, 73
IOL=1.6mA
4.5 to 6.0
•Ports 84, 85, 86, 87
Port 70
IOL=1.0mA
4.5 to 6.0
•Ports 0, 1, 3
VOH=0.9VDD 4.5 to 6.0
15
40
•Ports 70, 71, 72, 73
•Ports 84, 85, 86, 87
•Port 1
Output disable 4.5 to 6.0
0.1VDD
•Port 70, 71, 72, 73
•RES
All pins
•f=1MHz
4.5 to 6.0
10
Unmeasurement
terminals for
input are set to
VSS level.
•Ta=25°C
Pins
Conditions
max.
5
unit
µA
1
1
1
V
1.5
0.4
0.4
0.4
70
kΩ
V
pF
No.6805-13/21
LC86E5420
4. Serial Input / Output Characteristics at VSS=0V and Ta=+10°C to +40°C
Serial clock
Input clock
Parameter
Low
level
pulse
width
High
level
pulse
width
Data setup time
Data hold
time
Output clock
Serial input
Serial output
Cycle
Low
level
pulse
width
High
level
pulse
width
Cycle
Symbol
tCKCY(1)
tCKL(1)
Pins
SCK0, SCK1
tCKH(1)
tCKCY(2)
SCK0, SCK1
tCKL(2)
tCKH(2)
tICK
VDD [V]
Refer to figure 5 4.5 to 6.0
4.5 to 6.0
min.
2
1
4.5 to 6.0
1
•Use pull-up
4.5 to 6.0
resistor (1kΩ)
when open drain
output.
4.5 to 6.0
•Refer to figure 5
2
•SI0, SI1
•SB0, SB1
•SO0, SO1
•SB0,SB1
•Data set-up to 4.5 to 6.0
SCK0, 1
•Data hold from 4.5 to 6.0
SCK0, 1
•Refer to figure 5
•Use pull-up
4.5 to 6.0
resistor (1kΩ)
when open drain
output.
•Data hold from 4.5 to 6.0
SCK0, 1
•Refer to figure 5
Ratings
typ.
max.
unit
tCYC
1 / 2tCKCY
1 / 2tCKCY
4.5 to 6.0
tCKI
Output delay tCKO(1)
time
(Serial clock
is extrnal
clock)
Output delay tCKO(2)
time
(Serial clock
is internal
clock)
Conditions
µs
0.1
0.1
7 / 12tCYC
+0.2
1 / 3tCYC
+0.2
No.6805-14/21
LC86E5420
5. Pulse Input Conditions at VSS=0V and Ta=+10°C to +40°C
Parameter
High / low
level pulse
width
Symbol
Pins
tPIH(1)
tPIL(1)
•INT0, INT1
•INT2 / T0IN
tPIH(2)
tPIL(2)
INT3 / T0IN
(The noise
rejection clock
select to 1 / 1.)
INT3 / T0IN
(The noise
rejection clock
select to 1 / 16.)
INT3 / T0IN
(The noise
rejection clock
select to 1 / 64.)
RES
tPIH(3)
tPIL(3)
tPIL(4)
tPIL(4)
tPIL(5)
Conditions
VDD [V]
•Interrupt accept- 4.5 to 6.0
able
•Timer0-countable
•Interrupt accept- 4.5 to 6.0
able
•Timer0-countable
min.
1
•Interrupt accept- 4.5 to 6.0
able
•Timer0-countable
32
•Interrupt accept- 4.5 to 6.0
able
•Timer0-countable
128
Reset acceptable 4.5 to 6.0
200
Ratings
typ.
max.
unit
tCYC
2
µs
6. A / D Converter Characteristics at VSS=0V and Ta=+10°C to +40°C
Parameter
Symbol
Resolution
N
Absolute
ET
precision (Note 2)
Conversion
tCAD
time
Pins
Conditions
VDD [V]
4.5 to 6.0
4.5 to 6.0
AD conversion 4.5 to 6.0
time=16 ✕ tCYC
(ADCR2=0)
(Note 3)
AD conversion
time=32 ✕ tCYC
(ADCR2=1)
(Note 3)
4.5 to 6.0
min.
Ratings
typ.
8
max.
±1.5
15.68
(tCYC=
0.98µs)
65.28
(tCYC=
4.08µs)
31.36
(tCYC=
0.98µs)
130.56
(tCYC=
4.08µs)
unit
bit
LSB
µs
Analog input
VAIN
AN0 to AN7
VSS
VDD
V
voltage range
Analog port
IAINH
VAIN=VDD
4.5 to 6.0
1
µA
input current
IAINL
VAIN=VSS
4.5 to 6.0
-- 1
(Note 2) Absolute precision excepts quantizing error (±1 / 2 LSB).
(Note 3) The conversion time means the time from executing the AD conversion instruction to setting the complete
digital conversion value to the register.
No.6805-15/21
LC86E5420
7. Current Dissipation Characteristics at VSS=0V and Ta=+10°C to +40°C
Parameter
Current
dissipation
during basic
operation
(Note 4)
Symbol
IDDOP(1)
IDDOP(2)
IDDOP(3)
IDDOP(4)
Pins
VDD
Conditions
VDD [V]
4.5 to 6.0
•FmCF=6MHz
Ceramic resonator
oscillation
•FsXtal=32.768kHz
crystal oscillation.
•System clock :
CF oscillation
•Internal RC
oscillation stops.
•1 / 1 divider
•FmCF=3MHz
4.5 to 6.0
Ceramic resonator
oscillation.
•FsXtal=32.768kHz
crystal oscillation.
•System clock :
CF oscillation
•Internal RC
oscillation stops.
•1 / 2 divider
•FmCF=0Hz
4.5 to 6.0
(when oscillation
stops).
•FsXtal=32.768kHz
crystal oscillation.
•System clock :
RC oscillation
•1 / 2 divider
•FmCF=0Hz
4.5 to 6.0
(when oscillation
stops).
•FsXtal=32.768kHz
crystal oscillation
•System clock :
crystal oscillation
•Internal RC
oscillation stops.
•1 / 2 divider
min.
Ratings
typ.
14
max.
26
6.5
14
4
12
3.5
9
unit
mA
No.6805-16/21
LC86E5420
Parameter
Current
dissipation
HALT mode
(Note 4)
Symbol
IDDHALT(1) VDD
IDDHALT(2)
IDDHALT(3)
IDDHALT(4)
Pins
Conditions
•HALT mode
•FmCF=6MHz
Ceramic resonator oscillation
•FsXtal=32.768kHz
crystal oscillation
•System clock :
CF oscillation
•Internal RC
oscillation stops.
•1 / 1 divider
•HALT mode
FmCF=3MHz
Ceramic resonator oscillation
•FsXtal=32.768kHz
crystal oscillation
•System clock :
CF oscillation
•Internal RC
oscillation stops.
•1 / 2 divider
•HALT mode
FmCF=0Hz
(when oscillation
stops).
•FsXtal=32.768kHz
crystal oscillation
•System clock :
RC oscillation
•1 / 2 divider
•HALT mode
FmCF=0Hz
(when oscillation
stops).
•FsXtal=32.768kHz
crystal oscillation
•System clock :
32.768kHz
•Internal RC
oscillation stops.
•1 / 2 divider
HOLD mode
Ratings
typ.
4
max.
9
4.5 to 6.0
2.2
5
4.5 to 6.0
400
1600
4.5 to 6.0
25
100
0.05
30
VDD [V]
4.5 to 6.0
min.
Current
IDDHOLD VDD
4.5 to 6.0
dissipation
HOLD mode
(Note 4)
(Note 4) The currents of output transistors and pull-up MOS transistors are ignored.
unit
mA
µA
No.6805-17/21
LC86E5420
Table 1. Ceramic resonator oscillation guaranteed constant (main-clock)
A kind of oscillation
Producer
Oscillator
C1
C2
6MHz ceramic resonator Murata
CSA 6.00MG
33pF
33pF
oscillation
CST 6.00MGW
on chip
Kyocera
KBR-6.0MSA
33pF
33pF
PBRC 6.00A(chip type) 33pF
33pF
KBR-6.0MKS
on chip
PBRC 6.00B(chip type)
3MHz ceramic resonator Murata
CSA 3.00MG
33pF
33pF
oscillation
CST 3.00MGW
on chip
Kyocera
KBR-3.0MS
47pF
47pF
* Both C1 and C2 must use K rank (±10%) and SL characteristics.
Table 2. Crystal oscillation guaranteed constant (sub clock)
A kind of oscillation
Producer
Oscillator
C3
C4
32.768kHz crystal oscillation Kyocera
Dai Sinku DT-38 (1TA252E00) 18pF 18pF
* Both C3 and C4 must use J rank (±5%) and CH characteristics.
(It is about the application which is not in need of high precision. Use K rank (±10%) and SL
characteristics.)
Notes • Since the circuit pattern affects the oscillation frequency, place the oscillation-related parts as close to
the oscillation pins as possible with the shortest possible pattern length.
• If you use other oscillators herein, we provide no guarantee for the characteristics.
CF1
C1
CF2
CF
XT1
C2
Figure1. Main-clock
Ceramic resonator oscillation
ILC00059
C3
XT2
X'tal
C4
Figure2. Sub-clock
Crystal oscillation
ILC00065
No.6805-18/21
LC86E5420
VDD
VDD Limit
0V
Power supply
Reset time
RES
Internal RC
resonator
oscillation
tms CF
CF1, CF2
tss Xtal
XT1, XT2
Operation mode
Unfixed
Reset
OCR6=1
Instruction execution mode
Reset time and oscillation stable time
HOLD release signal
Valid
Internal RC
resonator
oscillation
Tms CF
CF1, CF2
Tss Xtal
XT1, XT2
Operation mode
HOLD
Instruction execution mode
HOLD release signal and oscillation stable time
Figure3. Oscillation stable time
ILC00044
No.6805-19/21
LC86E5420
VDD
RRES
RES
(Note) Fix the value of CRES, RRES that
is sure to reset untill 200µs, after
Power supply has been over
inferior limit of supply voltage.
CRES
Figure4. Reset circuit
ILC00052
0.5VDD
<AC timing point>
VDD
tCKCY
tCKL
tCKH
SCK0
SCK1
1kΩ
tICK
tCKI
SI0
SI1
tCKO
50pF
SO0, SO1
SB0, SB1
<Timing>
<Test load>
Figure5. Serial input / output test condition
tPIL
ILC00073
tPIH
Figure6. Pulse input timing condition
ILC00074
No.6805-20/21
LC86E5420
Specifications of any and all SANYO products described or contained herein stipulate the performance,
characteristics, and functions of the described products in the independent state, and are not guarantees
of the performance, characteristics, and functions of the described products as mounted in the customer's
products or equipment. To verify symptoms and states that cannot be evaluated in an independent device,
the customer should always evaluate and test devices mounted in the customer's products or equipment.
SANYO Electric Co., Ltd. strives to supply high-quality high-reliability products. However, any and all
semiconductor products fail with some probability. It is possible that these probabilistic failures could
give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire,
or that could cause damage to other property. When designing equipment, adopt safety measures so
that these kinds of accidents or events cannot occur. Such measures include but are not limited to protective
circuits and error prevention circuits for safe design, redundant design, and structural design.
In the event that any or all SANYO products(including technical data,services) described or
contained herein are controlled under any of applicable local export control laws and regulations,
such products must not be exported without obtaining the export license from the authorities
concerned in accordance with the above law.
No part of this publication may be reproduced or transmitted in any form or by any means, electronic or
mechanical, including photocopying and recording, or any information storage or retrieval system,
or otherwise, without the prior written permission of SANYO Electric Co., Ltd.
Any and all information described or contained herein are subject to change without notice due to
product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification"
for the SANYO product that you intend to use.
Information (including circuit diagrams and circuit parameters) herein is for example only ; it is not
guaranteed for volume production. SANYO believes information herein is accurate and reliable, but
no guarantees are made or implied regarding its use or any infringements of intellectual property rights
or other rights of third parties.
This catalog provides information as of December, 2000. Specifications and information herein are subject to
change without notice.
PS No.6805-21/21