Epson | S5U1C62000A | Product specifications | Epson S5U1C62000A Product specifications

MF1476-01
CMOS 4-BIT SINGLE CHIP MICROCOMPUTER
S5U1C60N15E Manual
(Evaluation Board for S1C60N15)
NOTICE
No part of this material may be reproduced or duplicated in any form or by any means without the written permission of Seiko
Epson. Seiko Epson reserves the right to make changes to this material without notice. Seiko Epson does not assume any
liability of any kind arising out of any inaccuracies contained in this material or due to its application or use in any product or
circuit and, further, there is no representation that this material is applicable to products requiring high level reliability, such
as medical products. Moreover, no license to any intellectual property rights is granted by implication or otherwise, and there
is no representation or warranty that anything made in accordance with this material will be free from any patent or copyright
infringement of a third party. This material or portions thereof may contain technology or the subject relating to strategic
products under the control of the Foreign Exchange and Foreign Trade Law of Japan and may require an export license from
the Ministry of International Trade and Industry or other approval from another government agency.
© SEIKO EPSON CORPORATION 2001, All rights reserved.
New configuration of product number
Starting April 1, 2001, the product number has been changed as listed below. Please use the new
product number when you place an order. For further information, please contact Epson sales
representative.
Devices
S1
C
60N01
F
0A01
00
Packing specification
Specification
Package (D: die form; F: QFP)
Model number
Model name (C: microcomputer, digital products)
Product classification (S1: semiconductor)
Development tools
C
60R08
S5U1
D1
1
00
Packing specification
Version (1: Version 1)
Tool type (D1: Development Tool)
Corresponding model number (60R08: for S1C60R08)
Tool classification (C: microcomputer use)
Product classification
(S5U1: development tool for semiconductor products)
CONTENTS
S5U1C60N15E Manual (Evaluation Board for S1C60N15)
This manual describes how to operate the S5U1C60N15E, a debugging tool for the S1C60N15 4-bit, singlechip microcomputer.
Refer to the "S1C60N15 Technical Manual" for details of the S1C60N15, and the "S5U1C62000A Manual"
and the "S1C60/62 Family Development Tool Manual" for the development procedure and other
information.
Contents
1 INTRODUCTION ______________________________________________ 1
1.1
1.2
S5U1C60N15E Outline ............................................................................................ 1
S5U1C60N15E Components .................................................................................... 1
2 PRODUCT SPECIFICATIONS ___________________________________ 2
3 NAMES AND FUNCTIONS OF PARTS ____________________________ 3
3.1
3.2
Basic Functions ........................................................................................................ 3
Functions of Parts .................................................................................................... 3
3.2.1 Front panel ..................................................................................................... 3
3.2.2 Rear panel ....................................................................................................... 3
3.2.3 Board (under top cover) ................................................................................. 4
3.3
S5U1C60N15E I/O, LCD and Sub-board Connectors ............................................. 6
4 CABLE CONNECTION _________________________________________ 7
4.1
4.2
4.3
Connection to ICE .................................................................................................... 7
Power Cable Connection .......................................................................................... 8
Connection to Target System .................................................................................... 8
5 OPERATION METHOD OF S5U1C60N15E ________________________ 9
5.1
Preparation .............................................................................................................. 9
5.1.1 Creation of target system ................................................................................ 9
5.1.2 Creation and installation of ROMs ................................................................ 9
5.2
Independent Use of S5U1C60N15E ........................................................................ 10
5.2.1 Power on/off .................................................................................................. 10
5.2.2 Debugging ..................................................................................................... 10
5.3
Operation When ICE is Connected ......................................................................... 10
5.3.1 Power on/off .................................................................................................. 10
5.3.2 Debugging ..................................................................................................... 10
6 PRECAUTIONS ________________________________________________ 11
6.1
6.2
Precautions for Operation ....................................................................................... 11
Differences from Actual IC ...................................................................................... 11
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
i
1 INTRODUCTION
1 INTRODUCTION
1.1 S5U1C60N15E Outline
The S5U1C60N15E is a development tool for the
S1C60N15.
Almost the same functions that the S1C60N15
CPU has can be implemented by writing
application program and option data created by
the option generator into EPROM, and installing
it in the S5U1C60N15E.
S5U1
S1C6
0N15
C60N
EVAL
15E1
UATI
ON BO
AR
D
In addition, the S5U1C60N15E can interface
with the in-circuit emulator ICE (S5U1C62000H),
and so perform a higher level of debugging.
1.2 S5U1C60N15E Components
When unpacking the S5U1C60N15E, check that the following goods are present:
(1)
(2)
(3)
(4)
(5)
(6)
(7)
(8)
(9)
S5U1C60N15E main unit ...................................................................................... 1
LCD connection cable and connector (60-pin flat type) .................................. 1 set
I/O connection cable and connector (50-pin flat type) ................................... 2 set
Power cable (3-pin) ................................................................................................ 1 set
Fuse (3 A) ................................................................................................................. 1
S5U1C60N15E Manual (Evaluation Board for S1C60N15) (this manual) .... 1
Warranty registration card ................................................................................... 1
Warranty certificate ............................................................................................... 1
Notes on use ........................................................................................................... 1
Manual
Warranty
certificate
Warranty
registration card
Notes on use
I/O I/O
#1 #0
LC LC
D D
#0 #1
S5U1C60N15E1
S1C60N15 EVALUATION BOARD
EPSON
LCD EMU.
I/O connection cable
and connector (2 set)
LCD connection cable
and connector
Power cable
Fuse
Fig. 1.2.1 S5U1C60N15E package
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
1
2 PRODUCT SPECIFICATIONS
2 PRODUCT SPECIFICATIONS
The components specifications of the S5U1C60N15E are listed below.
■ S5U1C60N15E
Dimensions:
Weight:
Color:
Power supply:
Board:
Operating conditions:
203 mm (width) × 275 mm (depth) × 65 mm (height) (Including rubber feet)
About 2.04 kg
(main unit only)
Cygnus white
5 V (±10%) DC, 3 A or more
(from external power supply)
When connected to the ICE, power is supplied by the ICE.
Main board × 1
Sub board × 1
Operating temperature
5°C to 40°C
Storage temperature
-20°C to 60°C
Operating humidity
35% to 80%
Storage humidity
20% to 90%
Resistance to vibration
Operating
0.25G max.
Transportation
2G max.
Resistance to impulse
Operating
1G max.
Standby
2G max.
■ LCD connection cable
S5U1C60N15E connector:
Cable connector:
Cable:
Interface:
Length:
J3372-P302VE or equivalent
7960-6500SC
60-pin flat cable × 1
CMOS interface (5 V)
About 50 cm
■ I/O cable
S5U1C60N15E connector:
Cable connector:
Cable:
Interface:
Length:
J3433-P302VE or equivalent
7950-6500SC
50-pin flat cable × 2
CMOS interface (5 V)
About 50 cm
(Two cables are same)
■ Power cable
S5U1C60N15E connector:
Cable connector:
Other side connector:
Cable length:
Capacity:
2
MOLEX 5276-03A or equivalent
MOLEX 5196-03
(According to power supply specifications)
About 80 cm
5 V DC, 3 A or more
EPSON
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
3 NAMES AND FUNCTIONS OF PARTS
3 NAMES AND FUNCTIONS OF PARTS
This section describes the names and functions of the parts of the S5U1C60N15E.
3.1 Basic Functions
The S5U1C60N15E has the following basic functions:
■ Program execution (Run function)
Install the EPROM containing the application program and execute the program.
■ Interface with ICE
The S5U1C60N15E can interface with the ICE so that a higher level debugging environment may be
established.
■ Setting hardware options by installing function option and segment option ROMs
Hardware options, i.e., I/O ports and segments, can be specified by writing option data for the
function option created by the function option generator and the segment option created by the
segment option generator into EPROM, and installing the EPROM.
3.2 Functions of Parts
3.2.1 Front panel
I/O
#1
••••••••••••••••••••••••••••
••••••••••••••••••••••••••••
•••••••••••••••••••••••••••••••••
•••••••••••••••••••••••••••••••••
LC
••••••••••••••••••••••
••••••••••••••••••••••
D
#0
LC
D
#1
EPSON
••••••••••••••••••••••••••••
••••••••••••••••••••••••••••
I/O
S1C60N15 EVALUATION BOARD
#0
■ Connectors
S5U1C60N15E1
• I/O #0, I/O #1
Connector for the I/O cable. The I/O cable
is used to connect the S5U1C60N15E to the
target system.
LCDEMU
▲ Position of pin 1
Fig. 3.2.1.1 Front panel
• LCD #0, LCD #1
Connector for the LCD cable. The LCD cable
is used to connect the S5U1C60N15E to the
target system. LCD #1 cannot be used.
• LCDEMU
Connector for the LCD emulator cable.
3.2.2 Rear panel
■ Switch
+5V GND
O I
DC IN
••••••••••••••••••••••••••••
••••••••••••••••••••••••••••
F1
••••••••••••••••••••••••••••
••••••••••••••••••••••••••••
F5
POWER SW
▲ Position of pin 1
Fig. 3.2.2.1 Rear panel
Note: Be sure to disconnect external power source
before connection with ICE, because power is
supplied from ICE when you connect
S5U1C60N15E to ICE.
• POWER SW
This is a switch to turn on (I) or off (O) the
external power supply to S5U1C60N15E.
(Please turn off the POWER switch when
ICE is connected.)
■ Connectors
• DC IN 5 V
This is a connector with external power
supply source. The external power supply
should be in direct current of 5 V for 3 A or
more.
• F1, F5
Connectors for the ICE interface cable.
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
3
3 NAMES AND FUNCTIONS OF PARTS
• • • • • • • • • • • • •
• • • • • • • • • • • • •
RESET
DONE
LED8 LED7 LED6 LED5
H.HEX
Front
F.HEX
L.HEX
25 26
SVDT
POWER
VADJ
HLT/SLP
1 2
LED1: OSCC
LED2: CLKCHG
LED3: SVDON
LED4: HVLD
LED5: LFHX
LED6:
LED7: LOF
LED8: SWRUN
LED9: DONE
LCA ROM
AD0
SHEXLD
S.HEX
FUSE1
SUB BOARD CONNECTOR
OSC3CR OSC1CR
3.2.3 Board (under top cover)
LED4 LED3 LED2 LED1 LED9
Fig. 3.2.3.1 Layout on the board
■ ROM sockets
• L.HEX, H.HEX
These are IC sockets for target program ROMs. Insert the ROM (L.HEX) containing the 8 low-order
bits (I7 to I0) of the machine code into the L.HEX socket, and the ROM (H.HEX) containing the 4 highorder bits (IB to I8) into the H.HEX socket.
• F.HEX
This is the IC socket into which the ROM (F.HEX) is inserted. This ROM includes the function options
generated by the function option generator (winfog).
• S.HEX
This is the IC socket into which the ROM (S.HEX) is inserted. This ROM includes the segment options
generated by the segment option generator (winsog).
• LCA ROM
This is the S1C60N15 peripheral circuit ROM.
■ Switch
• RESET switch
This switch resets the CPU and starts the target program from page 01H, step 00H.
■ FUSE
• FUSE1
This is 3 A tubular fuse for external power supply, and is blown off by current of 3 A or more.
■ Controls
• OSC3CR
This is the control for varying the OSC3 CR oscillation frequency. This control is effective only when
CR oscillation is selected for the OSC3 oscillator type by mask option. The CR oscillation frequency
can be checked with an oscilloscope or other instrument by connecting to pin 10 of the sub-board
connector.
Turning clockwise:
High frequency
Turning counterclockwise: Low frequency
4
EPSON
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
3 NAMES AND FUNCTIONS OF PARTS
• VADJ
This is the control for adjusting the LCD contrast. (Refer to Section 6.2, "Differences from Actual IC".)
• SVDT
This is the control for varying the power supply voltage in simulation to check SVD operation. (Refer
to Section 6.2, "Differences from Actual IC".)
Turning clockwise:
Level low
Turning counterclockwise: Normal
■ LEDs
• POWER
This LED lights when the S5U1C60N15E goes on.
• HLT/SLP
This LED lights when the CPU enters HALT status.
• AD0
This LED indicates the status of the address 0 (AD0) signal. It can be used to check
whether or not the S5U1C60N15E works.
• SHEXLD
This LED lights when segment option data from a personal computer is loaded
using the in-circuit emulator ICE. As the result, it can differentiate whether the
currently specified segment option is due to the ROM (S.HEX) or has been loaded
from a personal computer. Refer to the "S5U1C62000A Manual" in regard to the
loading of the segment option using the ICE.
• LED1 (OSCC)
This LED lights when the OSCC register (address 2FEH•D1) is set to "1" and goes
off when the register is set to "0".
• LED2 (CLKCHG) This LED lights when the CLKCHG register (address 2FEH•D2) is set to "1" and
goes off when the register is set to "0".
• LED3 (SVDON)
This LED lights when the SVDON register (address 2FFH•D3) is set to "1" and
goes off when the register is set to "0".
• LED4 (HVLD)
This LED lights when the HLMOD register (address 2E6H•D3) is set to "1" and
goes off when the register is set to "0".
• LED5 (LFHX)
This LED lights when function option data from a personal computer is loaded
using the in-circuit emulator ICE. As the result, it can differentiate whether the
currently specified function option is due to the ROM (F.HEX) or has been loaded
from a personal computer. Refer to the "S5U1C62000A Manual" in regard to the
loading of the function option using the ICE.
• LED7 (LOF)
This LED lights when the LOF register (address 2D0H•D0) is set to "0" and goes
off when the register is set to "1".
• LED8 (SWRUN)
This LED lights when the SWRUN register (address 2EEH•D2) is set to "1" and
goes off when the register is set to "0".
• LED9 (DONE)
This LED lights when the S5U1C60N15E has completed configuration at power-on
and is ready for debugging. If this LED does not light several seconds after poweron, turn the power off and then on again.
■ Test pins
The status of the following signals can be checked by an oscilloscope or other instrument.
• SUB BOARD CONNECTOR Pin 10 (OSC3CR)
This pin is used to monitor the OSC3 CR oscillation clock.
• SUB BOARD CONNECTOR Pin 11 (OSC3CE)
This pin is used to monitor the OSC3 ceramic oscillation clock.
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
5
3 NAMES AND FUNCTIONS OF PARTS
3.3 S5U1C60N15E I/O, LCD and Sub-board Connectors
Table 3.3.1 I/O #0 connector pins
Pin No.
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
Signal name
VDD (+5 V)
Cannot be connected
Cannot be connected
R00
R02
R10
R12
Cannot be connected
Cannot be connected
K00
K02
K10
Cannot be connected
K20
K22
P00
P02
P10
P12
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
VSS (GND)
Pin No.
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
Table 3.3.2 I/O #1 connector pins
Signal name
Pin No.
VDD (+5 V)
Cannot be connected
Cannot be connected
R01
R03
R11
R13
Cannot be connected
Cannot be connected
K01
K03
Cannot be connected
Cannot be connected
K21
K23
P01
P03
P11
P13
Cannot be connected
Cannot be connected
RESET
Cannot be connected
Cannot be connected
VSS (GND)
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
Table 3.3.3 LCD #0 connector pins
Pin No.
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
6
Signal name
COM0
COM2
Cannot be connected
Cannot be connected
SEG0
SEG2
SEG4
SEG6
SEG8
SEG10
SEG12
SEG14
SEG16
SEG18
SEG20
SEG22
SEG24
SEG26
SEG28
SEG30
SEG32
SEG34
SEG36
SEG38
SEG40
SEG42
SEG44
SEG46
Cannot be connected
Cannot be connected
Pin No.
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
Signal name
VDD (+5 V)
Cannot be connected
VDD (+5 V)
Cannot be connected
V1
V3
V5
N.C.
Cannot be connected
N.C.
Cannot be connected
N.C.
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
N.C.
Cannot be connected
Cannot be connected
Cannot be connected
N.C.
N.C.
N.C.
N.C.
VSS (GND)
Pin No.
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
Signal name
VDD (+5 V)
Cannot be connected
VDD (+5 V)
Cannot be connected
V2
V4
N.C.
N.C.
Cannot be connected
N.C.
Cannot be connected
N.C.
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
N.C.
Cannot be connected
Cannot be connected
Cannot be connected
N.C.
N.C.
N.C.
N.C.
VSS (GND)
Table 3.3.4 Sub-board connector pins
Pin No.
Signal name
COM1
COM3
Cannot be connected
Cannot be connected
SEG1
SEG3
SEG5
SEG7
SEG9
SEG11
SEG13
SEG15
SEG17
SEG19
SEG21
SEG23
SEG25
SEG27
SEG29
SEG31
SEG33
SEG35
SEG37
SEG39
SEG41
SEG43
SEG45
SEG47
Cannot be connected
Cannot be connected
1
3
5
7
9
11
13
15
17
19
21
23
25
EPSON
Signal name
VDD (+5 V)
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
OSC3CE
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Pin No.
2
4
6
8
10
12
14
16
18
20
22
24
26
Signal name
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
OSC3CR
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
Cannot be connected
VSS (GND)
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
4 CABLE CONNECTION
4 CABLE CONNECTION
This section describes how to connect the power cable to the S5U1C60N15E, and the
S5U1C60N15E to the ICE and the target system.
Note: Turn the power of all equipment off before connecting or disconnecting cables.
4.1 Connection to ICE
The S5U1C60N15E is connected to the ICE by connecting the two interface cables (F1 and F5). Use
S5U1C60N15E connectors F1 and F5 with the projections facing outwards. Use ICE connectors F1 and F5
with the projections facing inwards (cable side).
Figures 4.1.1 and 4.1.2 show the external view and connection diagram of the ICE interface cable.
2 1
: :
: :
: :
: :
: :
50 49
S5U1C60N15E side
2 1
: :
: :
: :
: :
: :
50 49
ICE side
Fig. 4.1.1 External view of the ICE interface cable
ICE
S5U1C60N15E
Red mark
←F1 connector
←F5 connector
F1 connector→
F5 connector→
Fig. 4.1.2 Connection diagram
Note: The S5U1C60N15E has an external power input connector for +5 V (VDD) and GND (VSS). Leave
these connectors unconnected when the S5U1C60N15E is connected to the ICE.
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
7
4 CABLE CONNECTION
4.2 Power Cable Connection
When using the S5U1C60N15E on its own, it must be supplied with power (5 V DC, 3 A or more) from an
external source through the power cable.
When the S5U1C60N15E is connected to the ICE, power is supplied by the ICE; therefore, the power cable
is not necessary. Disconnect the power cable if it is already connected.
Figure 4.2.1 shows the connection of the power cable pins.
Black
-
Connect to the
external power
supply
+
Connect to the
power connector
of the S5U1C60N15E
Red
Fig. 4.2.1 Connection of power cable pins
4.3 Connection to Target System
The I/O #0, I/O #1 and LCD #0 connectors are used to connect the S5U1C60N15E to the target system.
S5U1C60N15E
I/O #0
I/O
I/O cable
connectors
I/O #1
Target
system
LCD
LCD #0
connector
LCD cable
Front
Fig. 4.3.1 Connection of target system
The signals output from the LCD #0 connector are the same as those of the actual IC at the function level.
Therefore, the S5U1C60N15E may be connected to the LCD of the target system without any changes.
8
EPSON
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
5 OPERATION METHOD OF S5U1C60N15E
5 OPERATION METHOD OF S5U1C60N15E
5.1 Preparation
This section describes the common preparation work necessary when the S5U1C60N15E is used by itself
and when it is connected to the ICE.
Before doing the following, be sure to turn the POWER switch of the S5U1C60N15E off.
5.1.1 Creation of target system
Mount the LCD panel, keys, and switches on the board to build a target system. Use the I/O connector
and LCD connector supplied with the S5U1C60N15E to connect the S5U1C60N15E to the target system.
(For the pin layout of each connector, refer to Section 3.3, "S5U1C60N15E I/O, LCD and Sub-board
Connectors".)
Note: There is some difference in specifications between the S5U1C60N15E and the actual CPU. Refer
to Section 6.2, "Differences from Actual IC" when building a target system.
5.1.2 Creation and installation of ROMs
Create the program ROMs, function option ROM and segment option ROM, and insert them into the
sockets of the S5U1C60N15E.
• Program ROMs (two)
The program ROMs contain the application program machine code. Write the HEX files, that are
converted into the Intel-HEX format by the HEX converter (hx62) from the object files generated by
the linker (lk62), into EPROMs to create program ROMs. Refer to the "S5U1C62000A Manual" for lk62
and hx62. Since two HEX files containing the high-order section (zzzzzzzH.HEX) and the low-order
section (zzzzzzzL.HEX) of the machine code are output, two ROMs are created. Insert them into the
socket H.HEX and L.HEX under the top cover, respectively.
Table 5.1.2.1 Offset address
These ROMs are not necessary when connecting the
EPROM type
Offset value
S5U1C60N15E to the ICE. In addition, it is necessary
27C64
0000H (without offset)
to write the object data into the EPROM attaching
27C128
0000H (without offset)
the offset address as Table 5.1.2.1 according to the
27C256
4000H
type of EPROM that is used.
27C512
C000H
• Function option ROM (one)
The function option ROM is used to specify function options, such as I/O ports. Create the option
ROM from the function option HEX file (zzzzzzzF.HEX) output by the function option generator, and
insert it into the F.HEX socket under the top cover.
This ROM is effective even when the ICE is connected, however, this ROM is disregarded due to the
loading of the data from the ICE.
• Segment option ROM (one)
The segment option ROM is used to specify segment output port. Create the segment ROM from the
segment option HEX file (zzzzzzzS.HEX) output by the segment option generator, and insert it into
the S.HEX socket in the top cover.
This ROM is effective even when the ICE is connected, however, this ROM is disregarded due to the
loading of the data from the ICE.
• EPROM specifications
Use EPROMs with the following specifications:
Program ROM:
27C64 to 27C512
Function option ROM: 27C64 to 27C512
Segment option ROM: 27C64 to 27C512
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
(250 ns or less access time)
(250 ns or less access time)
(250 ns or less access time)
EPSON
9
5 OPERATION METHOD OF S5U1C60N15E
5.2 Independent Use of S5U1C60N15E
This section describes operation when using the S5U1C60N15E by itself.
The S5U1C60N15E may be used independently by connecting a power supply to it. Use a 5 V DC regulator (more than 3 A) as an external power supply. Connect it with the correct polarity (+ and -).
(Refer to Section 4.2, "Power Cable Connection".)
5.2.1 Power on/off
Before turning the POWER switch of the S5U1C60N15E on, confirm the following:
(1) The power cable is connected correctly.
(2) The target system is connected correctly.
(3) The ROMs have been installed correctly.
After confirming the above items, turn the POWER switch of the S5U1C60N15E on using the following
procedure:
(1) Turn the regulator on. If the regulator is a variable-voltage type, set the output voltage to 5 V ±10%.
(2) Turn the POWER switch of the S5U1C60N15E on.
5.2.2 Debugging
When the S5U1C60N15E is used alone, it provides the following debugging function. The method of
operation is given below.
• Program free run
When the RESET switch (under the top cover) is pressed, the S5U1C60N15E enters the program run
state, and executes the application program from page 1, step 0.
5.3 Operation When ICE is Connected
This section explains the operation and use of the S5U1C60N15E when it is connected to the ICE.
Set up the S5U1C60N15E as follows when it is connected to the ICE:
(1) Do not connect the power supply.
(2) Keep on turning the POWER switch off.
5.3.1 Power on/off
Power to the S5U1C60N15E is supplied by the ICE, and the power is switched on and off by pressing the
POWER switch of the ICE. Keep the POWER switch of the S5U1C60N15E off.
5.3.2 Debugging
Debugging is done with the host computer, and the S5U1C60N15E is controlled by the ICE. For the
method of operation, refer to the "S5U1C62000A Manual". The S5U1C60N15E can control the following
four functions:
(1)
(2)
(3)
(4)
10
RESET input
OSC3 CR oscillation frequency adjustment with the OSC3CR control
Pseudo power supply voltage change with the SVDT control
LCD contrast adjustment with the VADJ control
EPSON
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
6 PRECAUTIONS
6 PRECAUTIONS
Take the following precautions when using the S5U1C60N15E:
6.1 Precautions for Operation
• Turn the power of all equipment off before connecting or disconnecting cables.
• To turn the POWER switch of the S5U1C60N15E off, then on again, wait for at least 10 seconds after
turning off before turning on.
• When ROMs are inserted into the ROM sockets, lock the lever securely by positioning it horizontally.
After the ROMs have been removed from the sockets, lock the lever at the same position above. If the
lever is left upright, poor contact may result.
• Confirm that the following ROMs have been installed correctly, then operate the S5U1C60N15E.
(Top panel)
Program ROM
2 L.HEX, H.HEX
(Under top cover) Function option ROM 1 F.HEX
(Under top cover) Segment option ROM 1 S.HEX
6.2 Differences from Actual IC
There are some differences in functions between the S5U1C60N15E and the actual IC.
■ I/O
• The response time has been changed by the differences in logic level, output drive capability, and
pull-down resistance. The minimum operating voltage is also different from the actual IC.
• The K ports and the P ports of the S5U1C60N15E have a 100 kΩ pull-down resistor which are different
from those of the actual IC.
• When the segment terminals are set to DC output, the output signals are delivered with 0 V and +5 V.
■ LCD
• The LCD contrast is adjusted by the VADJ control. However, the contrast level of each actual IC is
fixed, so it cannot be adjusted.
• The output drive capability is different.
• If the internal voltage regulator is disabled by mask option, short-circuit the LCD power supply
terminals and supply external voltage as shown in Table 6.2.1.
Table 6.2.1 LCD drive voltage supplied externally
1/2 bias
Pins to be
Voltage to be
short-circuited
supplied
V0–V3
VC2 (Typ. 3.0 V)
V1–V4
VC1 (Typ. 1.5 V)
V2–V5
VSS (0 V)
—
—
1/3 bias
Pins to be
Voltage to be
short-circuited
supplied
V0
VC3 (Typ. 3.0 V)
V1–V3
VC2 (Typ. 2.0 V)
V2–V4
VC1 (Typ. 1.0 V)
V5
VSS (0 V)
■ Power-on sequence differences
The S5U1C60N15E performs configuration and determines the internal state when the power is
turned on. Then, it works as the actual IC does. Therefore, the I/O state of the S5U1C60N15E is
unstable until configuration is completed. This affects the power-on reset time.
■ Difference in current consumption
It is impossible to evaluate current consumption using the S5U1C60N15E.
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
EPSON
11
6 PRECAUTIONS
■ Function differences
<SVD circuit>
• The SVD function is implemented by varying the apparent power supply voltage with the SVDT
control.
• The SVD response time is different from the actual IC. It is necessary to take an appropriate waiting
time for getting the SVD result.
<Oscillation circuit>
• For OSC1, 32.768 kHz or 38.4 kHz crystal oscillation can be selected.
The OSC3 oscillation frequency is fixed at 1 MHz when ceramic oscillation is used. When CR oscillation is used, the frequency can be adjusted approximately from 50 kHz to 1400 kHz using the OSC3CR
control mounted on the board.
Either OSC1 or OSC3 can be selected as the system clock.
• The oscillation stabilization time for OSC3 and OSC1 is shorter than the actual IC. The time from
turning the OSC3 oscillation on to switching the system clock to OSC3 should be secured according to
the time of the actual IC.
• Use separate instructions for turning the OSC3 oscillation on and for switching the clock from OSC1
to OSC3. The same applies when turning the OSC1 oscillation off after switching the clock from OSC3
to OSC1. The S5U1C60N15E may operate if this processing is performed at the same time. Be sure to
use separate instructions according to the actual IC when creating the program.
• The oscillation start and stop times are different from those of the actual IC, because the logic level of
the S5U1C60N15E is higher than that of the actual IC.
<Undefined data memory area>
In the S5U1C60N15E, values that are read from unmapped memory areas will be undefined. However, the undefined status differs from the actual IC, therefore pay attention to the memory area when
creating programs. Refer to the "S1C60N15 Technical Manual" for the memory map.
12
EPSON
S5U1C60N15E MANUAL
(EVALUATION BOARD FOR S1C60N15)
International Sales Operations
AMERICA
ASIA
EPSON ELECTRONICS AMERICA, INC.
EPSON (CHINA) CO., LTD.
- HEADQUARTERS -
23F, Beijing Silver Tower 2# North RD DongSanHuan
ChaoYang District, Beijing, CHINA
Phone: 64106655
Fax: 64107319
150 River Oaks Parkway
San Jose, CA 95134, U.S.A.
Phone: +1-408-922-0200
Fax: +1-408-922-0238
SHANGHAI BRANCH
4F, Bldg., 27, No. 69, Gui Jing Road
Caohejing, Shanghai, CHINA
Phone: 21-6485-5552
Fax: 21-6485-0775
- SALES OFFICES West
1960 E. Grand Avenue
EI Segundo, CA 90245, U.S.A.
Phone: +1-310-955-5300
Fax: +1-310-955-5400
Central
101 Virginia Street, Suite 290
Crystal Lake, IL 60014, U.S.A.
Phone: +1-815-455-7630
Fax: +1-815-455-7633
Northeast
301 Edgewater Place, Suite 120
Wakefield, MA 01880, U.S.A.
Phone: +1-781-246-3600
Fax: +1-781-246-5443
EPSON HONG KONG LTD.
20/F., Harbour Centre, 25 Harbour Road
Wanchai, Hong Kong
Phone: +852-2585-4600 Fax: +852-2827-4346
Telex: 65542 EPSCO HX
EPSON TAIWAN TECHNOLOGY & TRADING LTD.
10F, No. 287, Nanking East Road, Sec. 3
Taipei
Phone: 02-2717-7360
Fax: 02-2712-9164
Telex: 24444 EPSONTB
HSINCHU OFFICE
Southeast
3010 Royal Blvd. South, Suite 170
Alpharetta, GA 30005, U.S.A.
Phone: +1-877-EEA-0020 Fax: +1-770-777-2637
13F-3, No. 295, Kuang-Fu Road, Sec. 2
HsinChu 300
Phone: 03-573-9900
Fax: 03-573-9169
EPSON SINGAPORE PTE., LTD.
No. 1 Temasek Avenue, #36-00
Millenia Tower, SINGAPORE 039192
Phone: +65-337-7911
Fax: +65-334-2716
EUROPE
EPSON EUROPE ELECTRONICS GmbH
SEIKO EPSON CORPORATION KOREA OFFICE
- HEADQUARTERS Riesstrasse 15
80992 Munich, GERMANY
Phone: +49-(0)89-14005-0
Fax: +49-(0)89-14005-110
SALES OFFICE
Altstadtstrasse 176
51379 Leverkusen, GERMANY
Phone: +49-(0)2171-5045-0
Fax: +49-(0)2171-5045-10
UK BRANCH OFFICE
Unit 2.4, Doncastle House, Doncastle Road
Bracknell, Berkshire RG12 8PE, ENGLAND
Phone: +44-(0)1344-381700
Fax: +44-(0)1344-381701
50F, KLI 63 Bldg., 60 Yoido-dong
Youngdeungpo-Ku, Seoul, 150-763, KOREA
Phone: 02-784-6027
Fax: 02-767-3677
SEIKO EPSON CORPORATION
ELECTRONIC DEVICES MARKETING DIVISION
Electronic Device Marketing Department
IC Marketing & Engineering Group
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone: +81-(0)42-587-5816
Fax: +81-(0)42-587-5624
ED International Marketing Department Europe & U.S.A.
FRENCH BRANCH OFFICE
1 Avenue de l' Atlantique, LP 915 Les Conquerants
Z.A. de Courtaboeuf 2, F-91976 Les Ulis Cedex, FRANCE
Phone: +33-(0)1-64862350
Fax: +33-(0)1-64862355
BARCELONA BRANCH OFFICE
Barcelona Design Center
Edificio Testa, Avda. Alcalde Barrils num. 64-68
E-08190 Sant Cugat del Vallès, SPAIN
Phone: +34-93-544-2490
Fax: +34-93-544-2491
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone: +81-(0)42-587-5812
Fax: +81-(0)42-587-5564
ED International Marketing Department Asia
421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN
Phone: +81-(0)42-587-5814
Fax: +81-(0)42-587-5110
S5U1C60N15E Manual
(Evaluation Board for S1C60N15)
ELECTRONIC DEVICES MARKETING DIVISION
EPSON Electronic Devices Website
http://www.epson.co.jp/device/
Issue September, 2001
Printed in Japan
L
A
Download PDF

advertising