Sharp CE-E User manual
SHARP
-
CE-1600E
SERVICE MANUAL
1. SPECIFICATIONS
Model:
Product name:
Power source:
Power required:
Batlery operating time:
Temperature:
Dimensions:
Weight:
Accessories:
Optional Accessories:
Usable Printers:
CE-1600E
Parallel and pocket disk interface
7.5V DC supplied by five AA batleries or
optional AC adaptor (EA-160)
2.8W
approx. 50 minutes using manganese
batleries approx. 120 minutes using
alkaline batleries (at20°C with aCE-1600F
connected while continuously writing and
reading a 4 K-byte prägram at 5 second
intervals)
1Q°C - 35°C
320mm(W) x 123mm(D) x 40mm(H)
approx. 640g (includes batleries)
AA batleries (5), screws (XBBSD20P
05000, PRICE RANK: AA) (2), Operation
Manual (1)
EA-158C (printer cable)
EA-160 (AC adaptor)
CE-1600F (pocket disk drive)
SHARP CE-515P, CE-516P, CE-700P
EPSON FX-80
See the operation manual for your printer
for information on electrical requirements
and printable characters.
Be sure to confirm compatibility (e.g. by
referring to the printer's manual) before
use for any printer no listed above.
2. SYSTEM ORGANIZATION
The entire system is shown below.
CE-1600F
(optional)
Printer
(optional)
EA-158C
, (optional)
"",,,,(, pti~~
CODE: OOZCE1600f:SME
MODEL CE-1600E
PARALLEL AND POCKET DISK INTERFACE
(FOR PC-1600)
3. NAME OF EACH PART AND ITS
USE
®Pocket disk drive
connector
(50-pin)
@
Adaptor plug
Note: The interface does not have apower switch. The power is
switched together with the power switch of the connected
computer. Disconnecting the computer turns off the power
for the interface.
CD
Computer connector
Connects the computer (PC-1600).
®Printer connector
Connects a printer through the printer cable (EA-158C).
®Pocket disk drive connector
Connects the pocket disk drive (CE-1600F)
@
Adaptor plug
Connects the AC adaptor (EA-160)
4. POWER SUPPLY
Size AA batleries (or an adaptor) are required in the interface to
operate the disk drive.
When the
I
BAIT
I
symbol is shown on the top right of the computer's
display, the batlery vohage is low. Replace the batleries in the
interface early.
Note: The interface and computer both supply power alternately.
Thus, operation is possible if power is available from either
one. However,the disk drive's motor operates from the power
supplied by the interface.
5. ERROR CODES
The interface issues error code 69 during an error.
ErrorCode Description
Printer is not connected. Printer is not on. Printer
69 is out of paper. Other printer related error
conditions.
SHARP CORPORATION
•
CE-1600E
If the printer takes 10 seconds or more lor the new page operation,
an error occurs when an attempt is made to output data following
the new page code (LPRINT CHR$(12);). I1 an error occurs, add
the following command.
1 ON ERROR GOTO 60000
60000 IF ERN
=
69 THEN RESUME
Lines 1 and 60000 are repeated until the new page operation is
completed.
6. END OF LlNE CODES AND
PROGRAM LlSTING FORMATS
Output of the end of line code at the end of a line can be turned
on and off if the amount of data exceeds the number of columns
per line specified in the PCONSOLE statement. Also, when
outputling a program listing, printing of the 2nd and subsequent
lines can be started from the first column or the 8th column.
End of Llne Code Output
Problems may arise if the number of print columns per line set in
the PCONSOLE statement is not the same as the number of printable
columns for the printer. Furthermore, most printers automatically
perform a line feed after receiving an entire line of printable
characters.
(1) Select "do not output end 01 line code" Irom below il the value
132 is set in the PCONSOLE statement and the number of
printable columns for the printer is 80.
If "output end of line code" is selected, the printer will
automatically perform a line feed after the 80th column and
again after the 132nd column.
(2) Select "output end of line code" from below if the value
80
is
set in the PCONSOLE statement and the number 01 printable
columns for the printer is 132.
I1"do not output end of line code" is selected, the 81st column
will be output on the same line. Furthermore, if "print from the
8th column" has been selected, 7 spaces will be inserted
between the 80th and 81st columns.
Selectlon of the Start Prlntlng Position
Since the line number is printed from the first column, long program
lines that require 2 or more printed lines can be printed with 2nd
and subsequent printed lines starting from the 8th column to make
the overall program listing easier to read. Select this indentation
leature for easier to red program listings.
Key Entry: POKE & FE79, X
(X denotes the value 0-3 as shown in the table below.)
x
Output End 01Line Code Listing Format
0No Print from 8th column
1Yes Print from 8th column
2No Print from 1st column
3Yes Print from 1st column
~-
When the PC-1600 is connected to interface for the first time or
when the raset button is pressed, X
=
0 will be selected. Futhermore,
whenever the power is tumed on again, the previous values that
were specified belore the power was tumed off are retained.
Note: The end of line code referred to on the previous page is
specified in the PCONSOLE statement. However, if a program
line is less that the number of columns per line specified in
the PCONSOLE statement, the end of line code specified in
the PCONSOLE statement will be output.
-2-
7.
PRINTER INTERFACE
The interface can connect with most Centronics compatible printers.
The interface uses handshaking through the BUSY siqnal. For your
reference, the printer interface connector signals, printer cable
wiring, signal timing chart, and electrical
requtrements
are given in
the following. The information is not necessary il a SHARP
recommended printer and cable are used.
(1) Printer Interface Connector Signals
\<D
0 0 --------------- 00
®}
~ 0-------------------0
®
Direction of
Pin Signal signal as seen Description
Number Name fromthe
interface
1STROBE Output
Strebe
pulse used to output
data.
2DATA1 Output
3DATA2 Output
4DATA3 Output 8 bit data signals with the
5DATA4 Output signal high when the data
is
"1".
6DATA5 Output The MSB is DATA 8.
7DATA6 Output The LSB is DATA 1.
8DATA7 Output
9
DATA8 Output The printer is ready to
10 BUSY Input receive data when low.
EXPRM Signal used to initialize the
11 Output printer.
A
Iow
pulse isoutput
when
the
computer istumed
on (exceptwhen ~ is
pressed after an auto-
power off) or when the
reset button is pressed.
12 N.C. Notused
13 N.C. Notused
14 - 25 GND Ground
(2) Printer Cable Wlring
The EA-158C is wired as shown below.
Computer end Printer end
1
2
3
4
5
6
7
8
9
10
11
14-25
1
2
3
4
5
6
7
8
9
11
31
16,17,19 - 27,
29,30
Pin 36 at the printer is not connected in the EA-158C. Some printers
use pin 36 for the SELECT IN signal wh ich must be in the SELECT
state. See the operaation manual for your printer. Also some printers
provide a switch for the SELECT state.
--
CE-1600E
(3) Signal Timing Chart
Moment when the power is turned on or when the reset button is
pressed (except when
@ffi
is pressed after an auto-power off.)
(4) Electrical Requirements
1.
Signal Levels
Input signal: TTL level
Output signal: TTL level (capable of driving one TTL IC)
1/0
-1
EXPRMt--Tt--I 2. Input signal:
V
cc
DATA1- .... _ x:---x
DATA8~~-
STROBE Tl: approx. 20ms
T2: 1.5ms or more
T3: 1.5ms or more
T4: 15-20 µ.s
Output signal:
2.8K M54514AP
orequivalent
Since all the outputs are through an open-collector, a pull-up resistor
(approx.
1kn - 10kn)
at the printer is required. SHARP
recommended printers already include a pull-up resistor.
8. Block diagram
Centronics interface
PC-l600
v« __
---!
vrc
ir
PC-l600 '-- __
..J
power supply circuit
EA-l60
(AC adapter)
AAx5
(SUM3x5)
CE-I600F
(2.5"FDD)
11!Q
,--- 1 ...
PTI .PUI .EZI
MINI.IORQ
MRQI.RDNI
WRNI
I'BO-7N
NU
RSTI--~----4_------~--~
Bu : 8 bits
1/0
Buffer
I'CO-7N
Mu : Mul t iplexer
FFl-3 : 8 bi ts Latch
DCl-3 Decorder
INT : Interrupt circuit
RST : Reset cireuit
PAO-7I : 8 bi ts input
PBO-7N : 8 bi ts output port
PC 0-7 N : 8 bi ts output port
~-----
,
- -----,--------- -- -.---f -
-f - .,
CSNO
107N
RSTN GNU
vcc
[Fig.2) LR38045 block diagram gate array
-
CE-1600E
9. Description of each block
9-1.
LR38045 gate array
Table-1 describes the gate array internal blocks and port addresses
(see block diagram [Fig.2]).
Block
name Description
Bu Bidirectional8- bit 10 buffer.
(8-bit inputoutput buffer)
Mu
Datai1 FF1, FF2, FF3, or PA Port are sent from
(Multiplexer)
the
gate array.
FF1-FF3 FF1: FF1 output
is
used to control
the
interrupt
(8-bit latch) circuit. For instance, '1'
in
a bit
FF2:
FF3:
DC1-3 DC1: 32KBROMc~ select (CSNO)
(Decoder) DC2: 2.5' FDD select signal (I07N)
DC3: FF1- - - FF3 and FDD reset latch select
during data write.
FF1- - -FF3 and PA port select during
data read.
INT
Ths
signal
is
OOedwi1ha PA POrt(PAOI- - -61)
(Interrupt circuits) i1put to be sUppliedto IRQas an
nternet
signa,
As
PA01---61 correspond wi1h00---06 of
FF1, the interrupt becomes valid when '1' is
establishedfor FF
I.
(The interrupt equivelent circuit is shown in
[Fig.3J. )
, RO
.
ri
~
~ I~
OO~
PAO I
0'
~
PA I
J
02
PA2 I
OS
V"
PA3t
O'
"""
PA. I
Q5 PAS I
Q6
A.
PA61
'--
?1",+-tv'J
-t'"
[Fig.3J Interrupt circuit
RST An input of the reset signal on RSTI resets
(Reset circuit) FF1- - -3. At the same time, RSTNis issuedto
the
2.5" FDD reset line and remains issued until
the
reset signa is canceled soltwarewise.
It is
possble
to output RSTNsoftwarewiserrespecti
ve of the i1put to RSTI.
ReseteQuivaientcircuit is sOOwnin [Fig,4] andits
timings in [Fig. 5], )
-4-
Block name Description
{
VCC~
Reset line capacitor /' RST' ~
.P""'~J~"OO::.~
RSTN
'RESET SW
'';TE.
IlI>Il·~'
I ;
t>
1 I
(PC-1600J:1) :0 .FFI-3RESET'
'---- ---
-----
-
-----
------]
[Fig.4] Reset circuit
W-, Tt_
Reset signal, ~
F~'~~
sv ~
'----v-------
FD resets softwarewise
[Fig.5] Reset circuit timings
NOTE: Port PA, PB, PC are all active high inside the gate array,
but converted into active low outside the gate array (see
the figure below).
Gate array
,
Inside , Outside
PA
PB
ACTIVE HIGH ACTIVE LOW
For instance, "1" on 00 of FF2 sets the PBON output low.
·_
CE-1600E
10RQ Address Data
MI A7 A6 AS A4 A3 A2 Al AO
WR
IID Operation D7 D6 05 D4 D3 D2 01 DO
110 0
v------
FD INT
l-----
--
0 0 0 000
1
FFI data write 0
*
----- ---
Enable
1
0
FF1 data read
1
1 1
1
1 1 1 1
FD reset
0 0 0 10
1
FD Reset
(0: reset)
PAO-7read
.>
(0 ) (0) (0) Comparator Vp LB Centronics
1
Q
FD INT LB BUSY
FF2(~)
-:
Centronics Centronics
I----
--
0 0
1
0 0
I
Pullup
~
data write
iNiT
"STJm!it
--
1
11
FF2(~)
11
11
11 1 1
data read
0FF3(~) Centronics ~entronics Centronics Centronics Centronics Centronics Centronics Centronics
0
1 1
0
1
data write DATAI DATA2 DATA3 DATA4 OATAS DATA6 DATA7 DATA8
1
0
FF3(~)
1111 1 1 1
T
data read
NOTE: All
are active high (1: active, 0: inactive) as seen Irom the
CPU,
except lor
FD
reset (0: active).
©
LR38045gate array signal description
PIN No. Pin name 1/0 effective Highlow at reset Descriltion
1-8 PC7N-PCON Out low High 8-bit output
port
(port address 83H)
00-D7 corresponds to PCO-7N via FF3.
9-16 PB7N-PBON Out low High I-bit output
port (port
address 82H)
00-D7 corresponds to PCO-7N via FF2.
17 (NC)
18 PUl In (Low) PU input
[ Used to create 32KB ROM select signal (CSNO).
J
19 PTI In (High) PT input
20 EZI In (High) Eminput
21 MINI In (High) MI irclut [~ed
to
create 107N and gate array interna! enableJ
22
10RQ In High IORQ input Signals.
23 MRQI In High MREQ input (used to create CSNO).
24 RSTI In High Reset
input.
When
the
reset
signal
is
entered,
the
intemal
~1Iop
is
reset
and RSTN (2.5' FDD reset signal)
is
sent out.
25 Vcc
.
26 GND ) Power supply
27 IRQ Out Low High Z All N-cIW1nel
open
drain interrupt signal output wtich
is
puIed ~
toVCC
on
the
PC-1600 siele.
28 RDNI In low Jm"input
29
WRNI In
low
WR"input
30
I
AOI- A71A141, A1SI In Address input
39
40 (NC)
2.5' FDD reset
signal
output.Sent out lIlCOIidiliolfilly
with
the
reset
signal
41 RSTN Out low low
and
must
be
canceled by means of software.
It
is
possble
to
send
out
softwarewise. (Address 81H, 00,
WR")
42 107N Out low (High) 2.5' FOD select signal.
(SenT out
via
address 70H-7FH.)
43 CSNO Out low (High) 321<8ROM select signal.
rm
MREQ. PT············High
pU·····················low
Address········· ···4000H -7FFFH
(PV"'low; Centronics interface, High; FDD)
44-51 DBO-DB7 ln/Out (8-bit) data input
and
output.
52
I
PAOI-PASI In low Il1lut
port
(port
address 81H)
57 PAD-61 corresponds to DO-6.
60 PA61 (Interrupt controled by FFI (address 80H) output 00-6.)
58 GNO' Power supply
59 (NC)
61 PA7B Out High
62 PA7N (Out)
64 PA71 In High
63 (NC)
-
CE-1600E
9-2. Centronics interface
Fig. M54514AP driver equivalent circuit
Seven above circuits are implemented on a single chip of the driver
and two chips are used in the CE-1600E. Among 14 circuits (7
circuitsx2), 8 circuits are used lor data output and 4 tor STROBE
and INIT outputs, 1 for BUSY input, and remaining one circuit is not
used.
G)
Data output
From gate array ~
~OW
®STROBE, INIT outputs
Because both signals are active low and the gate array goes
high during reset, a non-inversion butler is provided between
port and Centronics interface.
From gate array
--'M---l
WLOW
:-, r,
I
L..J ,
CE-1600E___.) LO",,' ~ To
pnnteer
To prevent malfunction at power on and oft, a pull~ resistor is
inserted to PB6N.
®BUSY input
When the printer is not in connection, a pullup resistor is used
to set it in the busy state. A diode is used to prevent intrusion
01the power supply when oft.
,
I
,
To printer ___.)
I
I
I
~CE-1600E
9-3. Power supply circuit
VP, VBAT circuit
AC
aoapter,
__/jl
D2 D3
about 9.4V
N
N
••....Vp
SUM3x5
,
r ,
,D4
L-.{>I
J
.. VBAT
D6
{>!
Dl,D5,D6 nOOO3
D2,D3,D4
1O,EIN
01: For prevention of counter current flow from the battery to
the adapter.
D2, 03: To drop the voltage fromthe adapter to the f10PPVdiskdrive
voltage, 7.5V, maximum.
04: For prevention 01 counter current f10wfrom VßAT (main
unit) to VP (Iloppy disk).
05, D6: For prevention 01counter current flow to the battery when
the adapter is in use.
-~-
CE-1600E PC-16 00
(*u: )
VC
VCC4-~----+--------------'
-=-UM-3
- (X4)
ifr
After the batlery power supply is ORed with VBAT of th
CE-1600E, VCC is regulated to 4.7V before supplied to th
CE-1600P. (See the figure below.)
When the main power is off, VCC is not supplied.
9-4. Low battery detect circuit
CD
VP low banery detect circuit
V OUT
MN 1280
output characteristics
The MN1280Q low batlery detect IC is used in the VP low low
batlery detect circuit. (Rank Q=VDL: 3.8-4.1V)
VOUT must be inverted in the comparator before supplied to the
gate array.
Vp
vo:
MN1280Q
> •
To gate array
PAI I
VOUT
1.1-2.4V
®VP, VCC comparator circuit
As it is necessary to satisfy the condition of VP>VCC+01V in
order to 5VC inside the CE-1600F, the condition is monitored
by means 01the comparator.
VP
100KO
>
t
To gate array
PA21
5KO
(Potentiometer adjusting method)
1) Add 4.5 to 5V to the VCC pad.
2) Add VCC+O.1V to the VP pad.
3) RotateVR counterclockwiseandsetthe LBtest padvohageto OV.
4) Slowly rotate VR clockwise and stop it when the LB test pad
voltage came to be VCC. (See the parts and signal description
lor the location 01test pad.)
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-
CE-1600E
o
-
CE-1600E
•
11. Circuit Diagram
60pln CONNECTOR
5
r---
BO 30
59 29 •••
5B 2B
- 57 27 ,. 1,"3'J311
EC 5B 2B 10
'IC 55 2!5
><
~l:
GNO
54 24
OC ~
Ht
1001:
I
GNO
53 23
0
:l
_ GNC
52 22
><
•• • 5 I 2 I 03 ~
2 _ ,
BFO
50 20 04 •
r--+-+-----
MAEQ 49 I9 DIS ~ - ~ ,
NC
4B
I
B
OB - ~
'r --- --
~, 47 17 07 -- -- ...........' ~
><,
2
r--
Vb.. 4B
I
B PV •• , ,___ - -
l
Vb.. 45 15 PU .; '" ...
f'-'-""---
.r--
FGND
U14 PT
I '"
71,
J
I
r-<
FGND
43 13 ASTE
a:,
I - N
42 12 ~
liC
T
>
I
v..
H
11
v..
r--
MNI280
«n
- .1iC_ 40 10 MI
VII
39 9
!"NT
~ ...I5 38 8 AO
I--
~ AI4 37 7 A
I--
~ A 13 36 6 A2
I--
,.-- "12 35 5 A3
I--
~ AI 34 4 M
I--
~ 10 33 3 A5
I--
11 1
I
~ 9 32 2 A6
I--
,.-- '8
31
I A7
I--
00 •
DSUB-25M S5
zi
OCNCMI304CC2F •
0
I'"
<
I!~
~r:
< ,~
o
• M545 I 4AP,----J
I.
X
13/~.7K
l;,
! !
= ,~
~ I~
2.7K ~~ ~ -I~
1f
o
~IA
I ~~~ "~l1>.
50,'. CONNEClOA
1
I
:~r ;
VP 50 25 VCC
II
I~I, 4~1:11!Z11:~1:7
z
11:~IZ!I~39
71
z;,
VP 411 24 VCC
L ~~
0 0 - .... ~":,, '"
e-
0 -
~f
i
VP .8 23 GND : ~
z ~ ~ ~:
~I:~:~
u ~~,~
GND 47 22
GND ... ,
r
=:- "
I. ·
L..._
ITH
46 21
RIJ -
EZ' 20
IAIT
45 20
WR"
T
O"""" '---~
r-
10RO (4 19 107N
I---- ~
IORQ
BFI
43 18 MREO ~
GA TE ARRA
v
"15
42
17
AO
r--
.!!ll!..
,.-- AL~ 41 16
A
r--
v ....
~ AL3_
40 15 A2
r--
10
1 ~
~ A 39 14 A3
r--
IRQ
L R380 4 5
~ A 3B 13 A4
r-- ~
~ A 37
12
A5
I---
.1l
T -~
~ A9 3B I I A6
I--- ,.--~
3D
~ A8
35 0
A7
I---
I--~
[" F~~~ ~~ : ~~TN
I-
I--~ .. .. .. ..
:;Ol
i!
i
~+ ~
I~-l~~cl~~~:
I~
I ~~.
iji
Ne 29 4 4
I-
lil
28 3 )5
I-
YGG 21 2 )6
I ~~
I
NTF
28
I
r----
3
2
1) Diode with no comment is chip diode.
2) All 01 Resistors are
1/8W,
chip resistors.
3) Capacitor with no comment is 25WV, O.lµ.F (F), chip capacitor.
A
B
cn
-9-
1
i-----r------~
~N 1280 «n
11111111111
i
t
I I I I I I I
I I
10
I'l
I
E ARRAY
JB8045
°1°1°1°1°1°1°1°1°1°1°1°
zzzzzzzzzzzz
CJClOClOO(!)OOOOO
r--'- .....-
110003
I OE I N I OE I N
'110003
I
OE
IN
1
I I
T
{::;
__.1
1
4
TCJ_
..-
I
I
----'--
r1
SUM3 X 5
I 10003
L.±
T
2200 JkF
/16V
lOOK
10
---
1
.I.
..r.
T T
100,.
/lOV T
~OAPTOR
5
4
0·
1===1.
Lo-
I
FGNo
3
2
E
H
F
e
-10-
12. Parts
&
signal description
~1~1~1~1~1~1c:;;1~lgJl;;:;l~
-
'"
'"
..,.
'" <D <- cc
'"
;::
=I~I~
w
'" cc
..,.
'"
<D <-
<Xl
>-
al -
I~I~I~
0< <<<
-<
<
<: <:
Cf)
0:
f-
~~~ ~
f- f- f-
::>
f-
<: <:
<
~ al
Cf)
0
o
0
o
0
o
0
,---------------,
~---L-----~~B-2-:p.0-----
ADP-
ADP+
BAT+
8AT-
,
Marked with ..
@ ~
eocares
test
pad
-
CE-1600E
Vcc 25 50 Vp
vcc
24 49 Vp
GNO 2348 Vp
GNO 22 47 GNO
RO 21 46 ELH
WR 20 45 WAIT
I07N 19 44 IORQ
MREQ 1843 BFO
AO 17 42 AI5
AI 16 41 AI4
A2 1540 AI3
A3 1439 AI2
A4
1338 Al!
A5 12 37 A10
A6 l! 36 A 9
A7 1035 A 8
RSTN 934 FGND
00 833 FGNO
01 732 PVOUT
02 6 31 PU
03 530 PT
04 429 Ne
05 328 MI
06 2'2:/ VGG
07 I 26 INTF
Precautions:
(j)
Diode must be closely attached on the PWB.
®
The flgure below shows the inslalling direction of the MNl2800.
@Lead of lhe same color must be connected 10Ihe circuil pattern
of Ihe same number for Ihe coi!.
Match
the
cut
in the
tC
with
the
~ arrowIlead
of
the
resist.
I PWB
end
+
®®®3
o
All component parts must be closely attached on the board,
and
pins must.be cut to 1.5mm at lhe most.
-11-
-
CE-1600E
13. Service precautions
13-1. Frame ground continuity test
Check continuity between the shield plate
01
the 60-pin connector
and the static terminals and make sure that it is not more than 1Oll.
13-2. Square jumper installation
CD
Make preliminary solder coating on the PWB.
®Remove the back paper
01
the guide sheet, match the holes
01
the PWB with the holes
01
the sheet, then bond the sheet over
the PWB.
®Remove the back paper
01
the double tack tape on the reverse
side
01
the guide sheet.
@Remove the protect sheet of the strip of the jumper, match the
circuit pattern with the jumper position, and attach the covered
portion
01
the jumper to the double tack tape.
®Apply the soldering pencil over the strip
01
eacM jumper and melt
solder on the pattern.
®Then, stroke the soldered portion with the tip
01
the soldering
oencil to ensure that it has been completely soldered.
Strip
I
~d'~'"
I
I
I
I
13-3. Wire routing
PWB
CD
AC adapter jack socket
QJAKCI003CCZZ
Wind sold er on the
(+)
side
Apply small amount 01 solder to the
inside 01 the (-) side and do not
permit solder to spread outside.
<:Be
SOld~
Name Length
J
CD
Jumper (Black) 200nn
<Il
Jumper (Red) 200nn
I
@
Jumper (Gray) 260nn
L....=...L._. __
(-) terminal
/
~~~~soldel
=
@
13-4.
After completion of troubleshooting, it is necessary to adjust the
potentiometer for the low battery detect circuit, in reference to
"Potentiometer adjusting method" in this service manual,
-12-
14. Character Codes
Some characters that are displayed on the PC-1600 may
be
different from
those printed on the printer. Furthermore, codes &00-&1F are usually
control codes on most printers and will differ from the displayed charac-
ters. See the operation manual lor your printer. The character lonts may
also differ depending on your printer.
Mode 0 Character Code Table
In Mode 0, the PC-1600 character set includes graphic and Greek symbols
and internationa' onaracters in addition to the normal upper and lower
case leiters, numbers and symbols. This character set is similar to the
IBM PC character set.
Hex 0123 4 567
8
9A B C
o
E
F
o
NUL
0
@
p
,
p
c
t:
.3
L
11
o
-
1
2
1
A
Qa
9
LI
..
,
::~
_j_
T
13
:':
2
..
2B
R
b
r
e
i[
0
'i
T
"1T
r
1
3
ij
3
C
SC
5
a
o
u
1
~
II
n
~
4
$
4
0
T
d
t,
a
0
,;;
1
-t
2:
r
5
%
5
E
u
e
LI
;,
0
N
~
t
f
0
J
6
s
5
FU
I
v
ä
c..
,;,
I1
r
fJ
-
7 8EL
7
G
w
9
w
~
c..
Q
11
If
»
T
z
8 BS
(
8
H X
h
x
e
y
c-
l
u
'f
<!>
9 HT
)
9
v
I
o.j
e
0
~
il
rr
J
8
A LF
*
:
J
Z
Jz
e
u
-
11
!!o
f
11
8
VT
t
;
K
[
k
I
I
C
~
11
lr
m
5
I
C FF
,
<
L
,
I
:
i
L
..
!J
li BI
-
"
D CR
=
M
1
m)
I
~
Ö
V
=
I
0
,
>
N
n
-
A
Po
<
d
Jl
I
f
m
E SO
u
'?
0
-
0
•
~J
>
1
.J..
m
n
F SI
-
Mode 1 Character Code Table
In Mode 1, the PC-1600 character set is modilied to make
it
compatible
with the more limited character set in the PC-1500. The table below gives
the hexadecimal value of the character position, and the corresponding
character for Mode 1.
HEX CODE 27 58 SC 5D SE 5F
60
7B 7C 70 7E 7F
,
e
,
6
~
II~
MODE0
-,
]
{
,
}
L
-
MODEl
J
=t'
n
A
""
I
CE-515P
Upper 4 bits
o
2
5 6
@P
G
W
g
H
X
-
Y
718191AIBICIDIEIF
o
SPI 0
q
$
%
.r-;'".[i:l;\';;
Cf)
~~
"<t
~ 7
~ 81BS
9
A
ILF
,.~.~'.:.~::l;
&16
v
7
-#T:"-;:;-~ ....
8
y
•
z
B ILUIESCI
+
K
C
<ILI'!'
D ICR
MI)
Im
11
E
ISO
>IN
n
.:,
F I
SI
/
O·
• "SP" means space. The pen proceeds to the next position without plot-
ting any characters.
• Blank means "not defined" and nothing is plotted.
-
CE-1600E
• When you create a program for the plotter, be sure to use its unique
character code commands.
• SO (&OE) and SI (&OF) are special purpose characters and should not
be used.
•'i
(&5C) and characters Irom &AO to &DF are lor Japanese letters.
(Shaded area)
CE-516P (IBM PC (USA) MODE)
Lcwer
4
bits
ESC
+
R
+
0
Upper 4 bits
01 2
3
4
56
7
8
9
A
B
C
0
EF
00
@
p
, p
C;
E
a
LJl
a
-
- -
1
2
1
A
Q
a
qÜ
ce
I
~=~
j_
-
ß
±
T
2" 2 B
R
b
r
e
~
6
~...:
r~
~=t
T
lT
3
<::?
#3 C
S
c
s
ä
6
(J
I
r
Li
tt
s;
4
0
$
4
0
Td
t
äÖ
n
1
-
b~
r
5~
§
%
5 E
U
e
u
ä
Ö
N
~
t
F
a
J
6
0
&6 F
Vf
V
cl
U
.9.
11 Frr
µ
7' 7
GW
9
w
Cf Cl
Q
Tl
Ir*
r '"
( 8
l!:+
0
8
H
X
h
X
e
y
i
9
<t>
9) 9
IY
i
Y
e
Ö
r:
~I
rr
J
e .
A
*:
J
Z
j
z
e
Ü
-, 11
JL
I
Q -
B
+
; K
[ k
{ '1'
et
%
11
-
H
o
.J
lr
C
, <
L "- I :
I
1:
%
:!J
If
11
n
00
0
- =
M
] m
} 1
~ 0
.lJ
-I
</>
2
E
. >
,
- Ä
R (
::l
JL
I
¤
Nn
lr
•
F/ ?
0
Ä
f )
..l.. •
-
0
l
Tl
When the CE-516P is used in the IBM-pe mode, the character set is the
same with that for mode 0 except for &7F.
CE-700P, FX-80 (USA character set)
U.S.A.
A • C D E
A I lF
Sl:1.
p
p
A
CI
ocz
R b
.11"
C
C
5
c
oe, s DT
U
d
oe,
$
T
d
D
u
u
v
F V
BEL
c "
v
BEL
c ..
9
IIS CA" {
1fT
I
xH
Je
h
x
y
Y
J
Y
~z
I
lF
{VT
\
I
F"F
11
I
•
I
("l!
N
n
so
0
0
"
1I
vr
E5C •
L
CI
F"F
D I
(lI
E I
so
ESC •
It
"
•
11
I
I
o
-13-
Characters lor &20 - &7F are the same with those for mode O.
-
CE-1600E
15. PARTS GUIDE
NO. PARTS CODE
PRICE NEW PART
DESCRIPTION
RANK MARK RANK
1TlABHl126ECZZ AE DCaution label
2TlABMl120ECZZ AD DDecoration label
3GCABB1025ECZZ AK DTop cabinet
4QJAKC1003CCZZ AD BJack lor AC ad~tor
5
l..Y..
TANZ1006ECZZ AA CBatterv terminal B
6
_QT
A N Z 1 3 7 7 C C Z Z AB C8attery terminal
t:i
7QTANZl124CCZZ AA CBatterv terminal
EB
8PSlDC1008ECZZ AE CConnector shield~ate
9PTPEH1020ECZZ AD NCStatic tape
10 QTANZ1003ECZZ AC CStatic terminal
11 PCUSS1227CCZZ AA CCushion
12 GFTAB1011ECZZ AD NDLid lor batt~
13 lX BZ1017ECZZ AB CScrew
14 XUBSD20P06000 AA
~
CScrew
C2X6)
15 GCABA1026ECZZ AP NDBottom cabinet
16 GlEGG1001ECZZ AC CRubber foot
17 TlABZ2121CCZZ AC NDReset label
\8 XUBSD26P06000 AA CScrew
(2.6X6)
19 TlABPl140ECZZ AC Dlabel lor battery
20 XUBSD26P12000 AA CScrew (2.6 x 12)
21 DUNTK1210ECZA BR NEMain PWB unit 1..U.S.A. Canada)
DUNTK1210ECZZ BR N E Main PWB unit (Other countrie~
22 lX BZ1155CCZZ AA CScrew (2 X 3.5)
23 TlABP1150ECZZ AA NCParallel label
25 TlA8Z1153ECZZ AA N D label for static
26 lX WZI001CCZZ AA CWasher
27 PZETlI028ECZZ AA CInsulator sheet
28 P Z E T l 1 0 3 4 E C Z Z AD NC Insulator sheet (U.S.A.)
29 PTPEH1278CCZZ AA NCTape (Ior No.283Q2 _{U.S.A.}
30 PSHEZ1021ECZZ AE NCSheet (U.S.A.)
101 PSHEZ1017ECZZ AB CSheet
102 PSHEGI041CCZZ AA CSheet
103 QCNCMI014EC2E Al NC Connector (25pin) (exceet U.S.A. Canada)
.QCNCMl 0 15EC2E Al NCConnector (2~'1l. CU.S.A.Canad;tl.
104 _Q_CNCM1295CC6J AV CConnector 160pi'1l.
105 QCNCWl 00 4EC5 J AS CConnector (50pin)
106 jLC NW 1023ECZZ AU NCF.P.C. C62pi'1l.
107 RFilN1008CCZZ AH C Filter (ESD H 14B)
108 VCKYTPIEFI04Z AA CCapaeiter (25WV O.I~F)
109 R V R -M 5 3 1
O_QC
Z Z AD N B Variable resistor
110 VCEAGUIAWI07M AB CCapacitor (lOWV 1~U.
.
III
VCEAGUICW228M AE CCapacitor_{16WV 220<>.M.tl
112 VCKYTPIEB104K AA CCapacitor (25WV O.!J!.El
113
VHDDAP202K/-l AB BDiode (DAP202lU
114 VHD10EIN///-1 AB B Diode (lOEIl
115
VHOIIDQ03// 1 AE BDiode GI QQ.031
116 VHi iR9393N/ 1 AO BIC (lR9393N)
118 VHilH5357R6-1 AU BIC (lH5357R6.l
119 VHilR38045/ 1AQ B IC_(lR38045)
120 VHiMN1280V/ 1 AE B IC (MNI280Q)
121 VHiM54514AP-l AF BIC (M54514AP.l
122 VRS TP2BDI00J AA CResistor_(l/8W 100 +5%)
123 VRS TP2BDI03J AA CResistor (l/8W 10KO +5%)
124 VRS-TP2BD104J AA CResistor_il/8W 100KO +5%)
125 VRS TP2BD183J AA CResistor (l/8W 18KO + 5%l
126 VRS-TP2BD272J AA CResistor (l/8W 2.7KO +5%)
127 VRS TP2B0273J AA CResistor_il/8W 27KO +00
128 VRS TP2B0392J AA CResistor_il/8W 3.9KO +5%)
129 VRS TP2BD473J AA CResistor (l/8W 47KO +5%)
130 VRS TP2BD512J AA CResistor (l/8W 5.1KO +5%)
131 VRS T P 2 B 0 5 6 2 J AA CResistor1..l/8W 5.6KO +00
132 XBBS020P08000 AA C Screw
(2X8)
(tor 50pin connector)
133 XBBSD20PI0000 AA C Screw (2 X lQ)_ (Ior 6QRin connecto!l
134 X B B S D 3 0 P 0 6 0 0 0 AA C Screw
1..3
X 6) (tor 25pin connector)
135 XNES020 1 6 0 0 0 AA CNut (M2) (for 50 60pin connector)
201 TiNSM1121ECZZ AS N D Instruction book
204 SPAKA0267ECZZ AK 0Packin_g_cushion tor set
206 SPAKC0271ECZZ AG N
0
Packing case
207 PCAPHI013CCZZ AD CConnector c~ (Ior 60pin connector)
208 XBBS020P05000 AA C Screw (2 X 5) (for cotion CE 1600El
209 PCAPHI014CCZZ AD C Connector c~ (tor 25pin connector)
210 DUNT 1271ECZZ AD N CFCC wire _iU.S.A.}
211
TlABH1168ECZZ AB N D Instruction label .(U.S.A.)
212 PTPEH1228CCZZ AA CTape (tor No.2 11) l_U.S.Al.
-14-
..
CE-1600E
./
./
./
././
(./
I
I
I
I
I
I
I
I
I
co"
I
I
l_
30
<,
<,
<,
<,
'--
2
3
I
J
nsulator
I
shee
t
I
(No.
27 )
I
I
I
I
I
L _
21
-15-
CE-1600E
SHARP
COPYRIGHT
©
1987 BY SHARP CORPORATION
All rights reserved.
Printed in Japan.
No part of this publication may be reproduced,
stored in a retrieval system, or transmitted,
in any form or by any means,
electronic, mechanical, photocopying, recordinq, or otherwise,
without prior written permission of the publisher.
SHARP CORPORA TION
Information Systems Group
Ouality
&
Reliability Control Center
Yamatokoriyama, Nara 639-11, Japan
1987 May Printed in Japan ®
Table of contents
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