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Created page with "== A Surgical Guide To The Amstrad Notepad Computer == === Amstrad Notepad Computer - What is it? === The model NC100 is about DIN A4 size with a LCD 8 lines * 80 charact..."
== A Surgical Guide To The Amstrad Notepad Computer ==
=== Amstrad Notepad Computer - What is it? ===
The model NC100 is about DIN A4 size with a LCD 8 lines * 80 characters
screen, nearly full size keyboard, a PCMCIA memory card slot on the right
hand side and four coloured keys. The Notepads have standard Centronics
parallel port (DB-25 pin famale connector) and RS232 (DB 9 pin male)
serial port. The system has drivers for 9 and 24 pin dot matrix, Canon
inkjet and Laserjet printers. The serial connector support 300, 1200,
2400, 4800, or 9600 bps. As power supply the NC100 use 4 * AA sice
batteries or an AC adapter. As backup battery ther is also a CR2032 3 Volt
lithium cell.
The model NC150 (it seems) is retailing only in Italy and Fance. It has
512K bytes firmware ROM and 128K RAM. The extra 256K bytes ROM contains a
spreadsheet and the arcade game 'BLOCKADE' (similar to TETRIS).
The model NC200 include the additional features of the NC150 but also a
720K MS-DOS compatible 3.5 inch floppy disk drive and a 16 lines by 80
characters screen witch had to be fold up like a laptop.
[[File:NC100_Diagram1.png]]
=== Specifications ===
<pre>
Model : NC100
Processor : Z80 compatible CMOS
Operating
frequency : 6 MHz
Memory : 64K byte internal
(15K system-, 11K upper-, 38K lower memory)
Storage : PCMCIA/JEIDA Memory Cards (PC-Cards) Type I
max. 1M byte SRAM 5 Volt
Display : 480*32 pixel disply (usually 80*8 characters)
Weight : 930 g
Height : 22 mm
Width : 295 mm
Length : 210 mm
Power Consumption ON : 40 - 60 mA
Built in firmware : 256K byte with
- Texteditor with mailmerge and spellchecker
- Address book
- Time manager (diary with alarm-clock)
- Calculator
- Terminal-programm (serial Tranfer with ASCII or XModem)
- BBC-BASIC with Assembler support
</pre>
<pre>
How to get the Firmware Number ?
--------------------------------
Wenn you are in the main Menu (text editor, calculater, calender) push the
secret-button and the system-settings menu appears, the version number
will be shown in the first line of the sceen. I have a german NC100 and the
firmware number is v1.06.
PCMCIA Memory Cards
-------------------
A battery buffered PCMCIA SRAM-Memory Card will preserve you from data loss
even if your Notepad crashes and increases the available memory. It also
allows you to create a file with BBC-BASIC bigger than 1024 bytes. This is
because BBC-BASIC allocates all available memory on startup except 1024
bytes. The maxinun sice to use with the NC100 is up to 1M byte.
-2-�
How to open the NC100 ?
-----------------------
Before disassembling the Notepad you should save all your data! Then put
the Notepad on the table face down. Remove the four AA size batteries, then
unscrew the five screws (one under the battery cover). In the drawing below
they are marked with a "*"-sign. One screw fixes the cover of the firmware
EPROM.Place the Notepad the right way up and lift off the upper part of the
case. Be careful, because the display is still connected to the main-board
via a folio-flat-cable and so is the speaker! Don't be nervous, the cables
can be simply pulled out of their sockets. Now you can separate the covers.
┌────────────────────────────────────────────┐
│ │
│ │
│ │
│ │
│ │
│ │
│ │
│ Firmware EPROM │
│ (IC303) cover │
│ * ┌────────────┐ * │
│ ┌──┐ │ * │ ┌──┐ │
│ ┌┴──┴┐ └────────────┘┌┴──┴┐ │
│ │ │ │ │ │
│ │ │ │ │ │
│ └────┘ Open battery └────┘ │
│┌─────────────┐cover Lithium │
││ +│ battery┌────┐ │
│├───*─────────┤ cover │ │ │
││ -│ │ │* │
└┴─────────────┴─────────────────┴────┴──────┘
-3-�
What is inside?
---------------
Inside the NC100 is a SMD layout. I have a german NC100 and the plate is
labeled Amstrad plc 4500-001P-1, NA999-32142, manual marked C (A-H) and
1 (1-8). All IC's are SMD apart from IC303 which is on the backside of the
NC100 (behind the firmware EPROM cover). On the drawing below I have
labeled all IC's, but you can find it on the layout also!
Centronics RS232 6VDC
╔══════════════Ð══Ð═══════Ð══Ð═══Ð═════════ÐÐ╗
║ 4 * AA size -│ └───────┘ └───┘ └┘║
║ Batteries │ ┌─────┐┌──┐ ┌──┐309 ┌─┐311║
║ +│ │ │└──┘ └──┘ ├─┤ ║
╠════════════Ð═¥ │302 │308┌──┐305 ┌─┐└─┘313║
║ │ │ │ └──┼┬──┐└─┘314 ║
║ PCMCIA │301 └─────┘ └┴──┘ ┌─┐ ║
║ card-slot │ ┌─┐ 307 310┌──────┐304 └─┘312 ║
║ │ └─┘ ┌─┐┌─┐│303 │ ║
Ã───────┬────┘ └─┘└─┘└──────┘ ║
╠══Ð══Ð═¤Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══╣
║St│1 │2 │3 │4 │5 │6 │7 │8 │9 │0 │ │ │De│Bs║
Ã──┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴──Â
║Tab│Q │W │E │R │T │ │U │I │O │P │ │+ │ │ ║
Ã───┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┐<┘ ║
║v │A │S │D │F │G │H │J │K │L │ │ │ │ ║
Ã────┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴──┴┬──Â
║^ │ │X │C │V │B │N │M │, │. │ │^ │ ║
Ã─────┬┴─┬┴─┬┴──┴──┴──┴──┴──┴─┬┴─┬┴─┬┴─┬──┼──Â
║y │ │ │ │ │ │r │g │b ║
╚═════¤══¤══¤═════════════════¤══¤══¤══¤══¤══╝
-4-�
The tabel below gives a description of the IC's in the NC100:
╔════Ð═══════════════Ð════════Ð═══════════════════════════════════════╗
║IC-#│Label │Pin's │Description ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║301 │ZILOG │4*11= 44│Z84C00 ║
║ │Z84C0006FEC │PLCC 44 │CMOS, 6 MHz ║
║ │Z80 CPU │ │Z80 compatible Microprocessor ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║302 │NEC Japan │4*34=136│µPD 65034 ║
║ │D65034GD093 │PLCC 136│Customer Chip ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║303 │NEC Japan │2*16= 32│27C2001 = CMOS EPROM 256K*8 bit ║
║ │D27C2001 │DIL 32 │Firmware EPROM ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║304 │NEC JAPAN │2*14= 28│µPD 43257 A = CMOS SRAM 32K*8 bit ║
║ │D43257AGU-10LL │SO 28 │Memory layouted as an SO 32 (32 pin)! ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║305 │NEC Japan │2*14= 28│µPD 43257 A = CMOS SRAM 32K*8 bit ║
║ │D43257AGU-10LL │SO 28 │Memory ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║306 │MEMORY CARD │2*34= 68│PCMCIA/JEIDA Memory Cards Slot Type I ║
║ │ │PCMCIA │for max. 1M byte SRAM Memory, 5 Volt ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║307 │T 9224 HB │2*10= 20│TC8521 ║
║ │ 8521 AM │SO 20 │Real-Time-Clock ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║308 │NEC Japan │2*14= 28│µPD 71051 ║
║ │D71051 GU │SO 28 │UART (parallel to seriell transpose) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║309 │NEC Japan │2*10= 20│µPD 4711 ║
║ │D4711 AG │SO 20 │RS232-driver (shift level to +/- 10V) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║310 │not placed │2* 7= 14│74HC00 = CMOS-Logic 4 * NAND ║
║ │ │SO 14 │(only used if IC304/IC305 = 43256) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║311 │D4584G │2* 7= 14│4584 = CMOS-Logic 6 * Schmitt-Trigger ║
║ │ │SO 14 │ ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║312 │C339 G │2* 7= 14│LM339 = 4 * Comparator ║
║ │ │SO 14 │(used for battery level detection) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║313 │D4013G │2* 7= 14│4013 = CMOS-Logic 2 * D-Flip Flop ║
║ │ │SO 14 │with set and reset ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║314 │D4584G │2* 7= 14│4584 = CMOS-Logic 6 * Schmitt-Trigger ║
║ │ │SO 14 │ ║
╚════¤═══════════════¤════════¤═══════════════════════════════════════╝
-5-�
Amstrad NC100/NC150 Simplfied Bock Diagram
------------------------------------------
╔══════════════════════════════╦═════════════©
║ Addressbus ║ │
║ ╔══════════════════════╦═════════════╗ │
║ ║ Databus ║ ║ ║ │A0
║ ║ ┌──────────┐ ┌──ð────ð──┐ ┌──ð────┴──┐ ┌──────┐ ┌────────┐
║ ╠══ÁD0-7 │ │D0-7 A0-15│ │D0-7 C/D │ │ │ │ │
║ ║ │ IC301 ã═════Á IC302 ã══Á IC308 ã══ÁIC309 ã═Á CN302 │
║ ║ │ │ │ ___│ │__ │ │ │ │ D-SUB9 │
╠══║══ÁA0-15 │ │ CS4├──┤CS │ │ │ │Serial │
║ ║ │ │ │ │ │ │ │ │ └────────┘
║ ║ │CPU CLK├─────┤CLK UCLK├──┤CLK │ │ │
║ ║ └──────────┘ │ │ │ │ │ │
║ ║ ┌──────────┐ │ │ │UART │ │ │
║ ╠══ÁD0-7 │ │ │ └──────────┘ │ │
║ ║ │ IC303 __│ │___ ____│ │____ │
║ ║ │ CE├─────┤CS0 STBY├────────────────┤STBY │
╠══║══ÁA0-13 │ │ │ │RS232 │ ┌────────┐
║ ║ │A14-17(19)ã══╦══ÁAO14-19 │ └──────┘ │ │
║ ║ │EPROM │ ║ │ ____ ___ │ │ CN301 │
║ ║ └──────────┘ ║ │ STRB,ACK,ã═════════════════════════ÁD-SUB25 │
║ ║ ┌──────────┐ ║ │ BUSY,│ │Paralell│
║ ╠══ÁD0-7 │ ║ │ PD0-7│ └────────┘
║ ║ │ IC304 │ ║ │ │ ┌────────┐ ┌────────────────────┐
║ ║ │ │ ║ │ │ │ │ │ │
╠══║══ÁA0-13 A14├── │ ã══Á CN303 ã═Á │
║ ║ │ __│ ║ │___ │ │14 Pins │ │ │
║ ║ │RAM CS├──║──┤CS1 │ │ │ │ │
║ ║ └──────────┘ ║ │ │ └────────┘ │LCD-Screen │
║ ║ ┌──────────┐ ║ │ │ ┌────────┐ └────────────────────┘
║ ╠══ÁD0-7 │ ║ │ │ │ │
║ ║ │ IC305 │ ║ │ KBO0-9ã══Á CN304 ã═══════════╗
║ ║ │ │ ║ │ │ │10 Pins │ ║
╠══║══ÁA0-13 A14├── │ │ │ │ ┌─────────ð──────────┐
║ ║ │ __│ ║ │___ │ └────────┘ │ │
║ ║ │RAM CS├──║──┤CS2 │ ┌────────┐ │ │
║ ║ └──────────┘ ║ │ │ │ │ │ │
║ ║ ┌──────────┐ ║ │ KBI0-7ã══Á CN305 ã═Á │
║ ║ │ A14-19ã══╝ │ │ │ 9 Pins │ │Keybord Matrix │
║ ║ │ IC306 │ │ │ │ │ └────────────────────┘
║ ║ │ BVD1/2├─────┤BVD1 │ └────────┘
╠══║══ÁA0-13 │ │ │ ┌────────┐
║ ║ │ D0-7ã═════ÁMD0-7 │ │ │ ┌─┐█
║ ║ │PCMCIA │ │ SP├─────┤ CN307 ├───────┤ │█
║ ║ └──────────┘ │ │ ┌──┤ 2 Pins ├───────┤ │█
║ ║ ┌──────────┐ │ POFF│ │ │ │ └─┘█
║ ╚══ÁD0-3 │ │ │ │ └────────┘
║ │ IC307 │ │ │ ▀▀▀ Speaker
║ │ __│ │___ │ ┌─────────────────┐ ┌────────┐
╚═════ÁA0-3 CS├─────┤CS3 POFF├─────┤OFF │ │ │
│ _____│ │ BD1, BD2,ã═════ÁLevel Detector ├─┤ CN306 │
│RTC ALARM├───┐ │ BVD2│ │__ ├─┤ │
└─┬─────┬──┘ │ └─┬─────┬──┘ ┌──┤ON ├─┤6VDC-IN │
│ ▄ │ │ │ ▄ │ │ │Power Supply │ └────────┘
└─┤█├─┘ │ └─┤█├─┘ │ └─────────────────┘
X302 ▀ 32.768K │ X301 ▀ 12.2M │
└───────────────┘
-6-�
Amstrad NC100/150 Power Supply Bock Diagram
-------------------------------------------
┌─────┐ ┌─────────────────┐
DC6V ┌┬─o───────────┼─────┼───┤ ├─────o +6V
┌┐ │└─o──────┐ + └─────┘ │ DC/DC-Converter │
││└┘ ───┴─── F301 │ ├─────o +5V
└┴────o─┐ ┌───┐ │ │
│ └─┬─┘ ┌──────┤ ├─────o 5VBK
AC-Adaptor │ ───┴─── │ │ and │ Lith. buff. RAM
Input │ ┌───┐ │ │ ├─────o -15V
│ └─┬─┘ │ + │ │ for LCD-Display
│ ───┴─── ───┴─── │ │
│ ┌───┐ ┌───┐ │ ├─────o BD1, IC302
│ └─┬─┘ └─┬─┘ │ Battery Level │ 4*AA<4.2V
│ ───┴─── │ - │ Detector ├─────o BD2, IC302
│ ┌───┐4*AA │Lith. │ │ Lith.<2.3V
│ └─┬─┘ │ │ ├─────o BVD2,IC302
│ │ - │ │ │ 4*AA<3.2V
└────o───────o──────┤ ON/OFF ├─────┐
│ └────────┬────────┘ │
▀▀▀ │ ▀▀▀
│
+6V │
o └─────────┐
│ │
┌┴┐ │
│ │ IC313A │
│ │ ┌─────────┐ │
S301 │ │ │ │ │
┬ └┬┘ │ S Q ├───┘
─┴─ │ │ │
┌────o o────o────o─────────────o├ ─ ─ ─ ─ ┤
│ │ │ │ │
▀▀▀ │ │ ┌─────────┤ R │
_____ │ │ │ │ │
IC307, ALARM o────┘ │ │ └─────────┘
___ │ │
IC301, NMI o─────────┘ │
│
IC302, POFF o──────────────┘
-7-�
On the next pages folowing the pinouts off the most important IC's used in
the NC100. '*' indicates active Low and 'NC' is Not Connected in the NC100
The Microprocessor (MPU, IC301)
------------------
Type : Z84C00
Manufacturer : Zilog Inc.
Description : Microprocessor, 8-Bit
Power Consumption : 15 mA typ. at 6 MHz
Process : CMOS
Supply Voltage : +5V
Operating frequency max. : 6 MHz
Package : PLCC 44 pin
Features :
- Commands compatible with Zilog Z80 MPU
- Powerful set of 158 instructions including the 78 of the 8080A
- 10 addressing modes
- Power down mode when the system clock is stopped
Pinout :
1 A11 23 *RD
2 A12 24 NC
3 A13 25 NC
4 A14 26 *WR
5 A15 27 *BUSACK
6 NC 28 *WAIT
7 CLK 29 *BUSREQ
8 D4 30 *RESET
9 D3 31 *M1
10 D5 32 *RFSH
11 D6 33 GND
12 NC 34 A0
13 VCC 35 A1
14 D2 36 A2
15 D7 37 A3
16 D0 38 A4
17 D1 39 A5
18 *INT 40 A6
19 *NMI 41 A7
20 *HALT 42 A8
21 *MREQ 43 A9
22 *IORQ 44 A10
-8-�
The Customer Chip (IC302)
-----------------
Type : µPD 65034
Manufacturer : NEC Electronics
Description : Customer Chip with multiple funktions
Process : CMOS
Supply Voltage : +5V
Package : PLCC 136
The chip has multiple funktions:
- Clock generator for CPU and UART
- Peripher Interface Adaptor (to printer, LCD-screen, keybord,)
- Memory Management Unit
- PCMCIA-Interface
- Sound generator for speaker
Pinout :
1 VDD 35 GND 69 VDD 103 GND
2 KBI1 36 GND 70 TEMP 104 GND
3 KBI5 37 AO18 71 UCLK 105 *STRB
4 KBI7 38 AO19 72 RRDY 106 *CD2
5 KBI6 39 GND 73 TRDY 107 *CD1
6 KBI4 40 CLK 74 *STBY 108 *CE1
7 KBI3 41 HALT 75 LD0 109 *OE1
8 KBI2 42 *MREQ 76 LD1 110 *WE1
9 KBI0 43 *IORQ 77 LD2 111 *REG
10 A0 44 *BACK 78 LD3 112 BVD2
11 A1 45 *BREQ 79 FRM 113 BVD1
12 A2 46 *WAT 80 DF 114 WP
13 A3 47 *M1 81 LOAD 115 MD3
14 A4 48 *INT 82 CP 116 MD4
15 A5 49 *RD 83 POFF 117 MD5
16 A6 50 *WR 84 SP 118 GND
17 GND 51 DO 85 GND 119 MD6
18 GND 52 D1 86 GND 120 MD7
19 A7 53 D2 87 BD1 121 MD0
20 A8 54 D3 88 BD2 122 MD1
21 A9 55 GND 89 *NMIC 123 MD2
22 A10 56 D4 90 *RES 124 TEST (NC)
23 A11 57 D5 91 URES 125 KBO9
24 A12 58 D6 92 *BUSY 126 KBO8
25 A13 59 D7 93 *ACK 127 KBO7
26 A14 60 RRD 94 PD7 128 KBO6
27 A15 61 *CS0 95 PD6 129 KBO1
28 AO14 62 *CS1 96 PD5 130 KBO2
29 AO15 63 *CS2 97 PD4 131 KBO5
30 AO16 64 *CS3 98 PD3 132 KBO4
31 AO17 65 *CS4 99 PD2 133 KBO3
32 X2 66 TRXC 100 PD1 134 KBO0
33 X1 67 GND 101 PD0 135 GND
34 VDD 68 GND 102 VDD 136 GND
-9-�
The Firmware EPROM (IC303)
------------------
Type : µPD 27C2001
Manufacturer : NEC Electronics
Description : EPROM, 2Mb, 8-Bit, UV-eraseable
Org. : 256K x 8 Bit
Process : CMOS
Supply Voltage : +5V
Standby : 0.5 mW
Operation : 150 mW
Package : DIL
Pinout :
1 NC (A19) 17 O3
2 A16 18 O4
3 A15 19 O5
4 A12 20 O6
5 A7 21 O7
6 A6 22 *CE
7 A5 23 A10
8 A4 24 *OE
9 A3 25 A11
10 A2 26 A9
11 A1 27 A8
12 A0 28 A13
13 O0 29 A14
14 O1 30 A17
15 O2 31 NC (A18)
16 GND 32 VCC
The NC100 can also control 27C4001 (512K), 23C2001 (256K), 23C4001 (512K),
23C8001 (1M byte) EPROM's! By the type of the EPROM there had to be set
some different connections, this connections are set by zerro Ohm
MSD-resistors from the backside of the plate close to IC303:
╔═════════Ð════════Ð══════Ð══════Ð══════Ð══════╗
║ IC303 │ Kbyte │ J301 │ J302 │ J303 │ J304 ║
╠═════════Ï════════Ï══════Ï══════Ï══════Ï══════╣
║ 27C2001 │ 256 │ │ │ + │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 27C4001 │ 512 │ + │ │ + │ ║
╠═════════Ï════════Ï══════Ï══════Ï══════Ï══════╣
║ 23C2001 │ 256 │ │ │ + │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 23C4001 │ 512 │ │ + │ │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 23C8001 │ 1024 │ + │ + │ │ ║
╚═════════¤════════¤══════¤══════¤══════¤══════╝
+ = use
I have double my ROM-space by set in a 27C4001 EPROM, remove J304 and set
in J301 by a pice of wire.
-10-�
The Static Random Access Memory (SRAM, IC304 and IC305)
-------------------------------
Type : µPD 43257A
Manufacturer : NEC Electronics
Description : SRAM, 256K Bit
Org. : 32K x 8 Bit
Process : CMOS
Supply Voltage : +5VBK (Lithium battery buffered)
Standby : 0.5 mW
Operation : 225 mW
Package : SO 28
Pinout :
1 A14 15 DQ4
2 A12 16 DQ5
3 A7 17 DQ6
4 A6 18 DQ7
5 A5 19 DQ8
6 A4 20 *CS
7 A3 21 A10
8 A2 22 *OE
9 A1 23 A11
10 A0 24 A9
11 DQ1 25 A8
12 DQ2 26 A13
13 DQ3 27 *WE
14 GND 28 VCC
On my NC100 the IC304 is layouted as an SO 32 (32 pin). I belief you can
put some bigger RAM-chip in the circuit, but there is nothing about that in
the electronic diagram! There is only that the NC100 can control a 43256
RAM-chips. By the type of the RAM-chip there had to be set some different
connections and use IC310:
╔═══════════Ð══════Ð══════Ð══════Ð══════Ð═══════╗
║IC304, 305 │ J305 │ J306 │ J307 │ J308 │ IC310 ║
╠═══════════Ï══════Ï══════Ï══════Ï══════Ï═══════╣
║43256 │ + │ │ │ │ + ║
Ã───────────┼──────┼──────┼──────┼──────┼───────Â
║43257 │ │ + │ + │ + │ ║
╚═══════════¤══════¤══════¤══════¤══════¤═══════╝
+ = use
-11-�
The PCMCIA card slot (IC306)
--------------------
The NC-100 can use PCMCIA/JEIDA Memory Cards (PC-Cards) Type I, max. 1024K
(1M) byte static ram card, 5 Volts. You can bye them in 64Kb, 128Kb,
256Kb, 512Kb, and 1024Kb sizes.
The flash memory cards are not suitable for the NC-100. These have a
control register that must be written to before any read or write can take
place. Data transfers are then be done in sector chunks.
PCMCIA Card Connector Type I, 5 Volts:
1 mm 1 mm
││ ││
││ 34 1 ││
┌───────────────────────────────────────────┐│────────────
1.6 mm ───└┐ ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■ ││ 3.4 mm
───┌┘ ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■ └┐─── 1 mm
└────────────────────────────────────────────┘────────────
│ 68 35 │
│ 54 mm │
PCMCIA Version 2.0 Pinout:
1 GND 35 GND
2 D3 I/O 36 *CD1 O
3 D4 I/O 37 D11 I/O (NC)
4 D5 I/O 38 D12 I/O (NC)
5 D6 I/O 39 D13 I/O (NC)
6 D7 I/O 40 D14 I/O (NC)
7 *CE1 I 41 D15 I/O (NC)
8 A10 I 42 *CE2 I (NC)
9 *OE I 43 RFSH I (NC)
10 A11 I 44 RFU I (NC)
11 A9 I 45 RFU I (NC)
12 A8 I 46 A17 I
13 A13 I 47 A18 I
14 A14 I 48 A19 I
15 *WE/PGM I 49 A20 I (NC)
16 RDY/*BSY O 50 A21 I (NC)
17 VCC 51 VCC
18 VPP1 52 VPP2
19 A16 I 53 A22 I (NC)
20 A15 I 54 A23 I (NC)
21 A12 I 55 A24 I (NC)
22 A7 I 56 A25 I (NC)
23 A6 I 57 RFU (NC)
24 A5 I 58 RESET I (NC)
25 A4 I 59 *WAIT O (NC)
26 A3 I 60 RFU (NC)
27 A2 I 61 *REG I
28 A1 I 62 BVD2 O
29 A0 I 63 BVD1 O
30 D0 I/O 64 D8 I/O (NC)
31 D1 I/O 65 D9 I/O (NC)
32 D2 I/O 66 D10 I/O (NC)
33 WP O 67 *CD2 O
34 GND 68 GND
RFU = Reserved Future Use
-12-�
The Real-Time-Clock (RTC, IC307)
-------------------
Type : TC8521AP/AM
Manufacturer : Toshiba Corporation
Description : Real Time Clock
Process : CMOS
Supply Voltage : +5VBK (Lithium battery buffered)
Power Dissipat. max : 1.25 mW
Package : SO 20
Features :
- Clock funktion (hr, min, sec, date, day of week, year and leap year)
auto-calendar
- Clock system of 24-hour or 12-hour selectable
- +/- 30 sec correction funktion
- Alarm signal or pulse of 16Hz or 1Hz can be output
- Built-in 26*4 bit RAM
- 4-bit bidirectional data bus
- 4-bit adress input
- Directly connectable with CPU bus
- Capable of battery backup
Pinout :
1 *CS
2 CS
3 ADJ
4 A0
5 A1
6 A2
7 NC
8 A3
9 *RD
10 GND
11 *WR
12 D0
13 D1
14 D2
15 D3
16 *ALARM
17 NC
18 XIN
19 XOUT
20 VCC
-13-�
The Universal Asynchronous Receiver Transmitter (UART, IC308)
-----------------------------------------------
Type : µPD 71051
Manufacturer : NEC Electronics
Description : UART Serial Control Unit
Process : CMOS
Supply Voltage : +5V
Package : SO 28
Features :
- Synchronous and asynchronous operation
- Full duplex, double buffered transmitter / receiver
- Error detektion at parity, overrun and framing
- 5 to 8 bit characters
- Low power standby mode
- Functionally equivalant to the 8251A UART
Pinout :
1 D2
2 D3
3 RxDA TA
4 GND
5 D4
6 D5
7 D6
8 D7
9 *TxCLK
10 *WR
11 *CS
12 C/*D
13 *RD
14 RxRDY
15 TxRDY
16 SYNCBRK (NC)
17 *CTS
18 TxE MP
19 TxDA TA
20 CLK
21 RES ET
22 *DSR (NC)
23 *RTS
24 *DTR (NC)
25 *RxCLK
26 Vdd
27 D0
28 D1
-14-�
The RS232-Driver (IC309)
----------------
Type : µPD 4711A
Manufacturer : NEC Electronics
Description : RS232-Driver
Process : MOS-IC
Supply Voltage : +5V
Power Dissipat. : 60 mA
Package : SO 20
The RS232-driver shift up the TTL-level (0V/+5V) output from UART to
RS232-level (+10V/-10V).
Pinout :
1 Vdd
2 C1+
3 Vcc
4 C1-
5 STB
6 Din1
7 Din2
8 Rout 1
9 Rout 2
10 GND
11 Rcon
12 Rin2
13 Rin1
14 Dout 2
15 Dout1
16 Dcon
17 Vss
18 C4-
19 GND
20 C4+
</pre>
=== The RS232-connector pinout ===
(DTR just duplicates RTS)
<pre>
Pin I/O Description
5 GND Signal Ground
9 <─ RI Ring Indicator (NC)
4 ─> DTR Data Terminal Ready
8 <─ CTS Clear To Send
3 ─> TD Transmit Data
7 ─> RTS Request To Send
2 <─ RD Receive Data
6 <─ DSR Data Set Ready (NC)
1 <─ CD Carrier Detect (NC)
</pre>
Author:
<pre>
Hans-Jürgen Böhling
Bülowstr. 2
40476 Düsseldorf
Germany
e-mail : 101.107378@germanynet.de
homepage: http://www.germany.net/teilnehmer/101.107378/index.htm
</pre>
=== Amstrad Notepad Computer - What is it? ===
The model NC100 is about DIN A4 size with a LCD 8 lines * 80 characters
screen, nearly full size keyboard, a PCMCIA memory card slot on the right
hand side and four coloured keys. The Notepads have standard Centronics
parallel port (DB-25 pin famale connector) and RS232 (DB 9 pin male)
serial port. The system has drivers for 9 and 24 pin dot matrix, Canon
inkjet and Laserjet printers. The serial connector support 300, 1200,
2400, 4800, or 9600 bps. As power supply the NC100 use 4 * AA sice
batteries or an AC adapter. As backup battery ther is also a CR2032 3 Volt
lithium cell.
The model NC150 (it seems) is retailing only in Italy and Fance. It has
512K bytes firmware ROM and 128K RAM. The extra 256K bytes ROM contains a
spreadsheet and the arcade game 'BLOCKADE' (similar to TETRIS).
The model NC200 include the additional features of the NC150 but also a
720K MS-DOS compatible 3.5 inch floppy disk drive and a 16 lines by 80
characters screen witch had to be fold up like a laptop.
[[File:NC100_Diagram1.png]]
=== Specifications ===
<pre>
Model : NC100
Processor : Z80 compatible CMOS
Operating
frequency : 6 MHz
Memory : 64K byte internal
(15K system-, 11K upper-, 38K lower memory)
Storage : PCMCIA/JEIDA Memory Cards (PC-Cards) Type I
max. 1M byte SRAM 5 Volt
Display : 480*32 pixel disply (usually 80*8 characters)
Weight : 930 g
Height : 22 mm
Width : 295 mm
Length : 210 mm
Power Consumption ON : 40 - 60 mA
Built in firmware : 256K byte with
- Texteditor with mailmerge and spellchecker
- Address book
- Time manager (diary with alarm-clock)
- Calculator
- Terminal-programm (serial Tranfer with ASCII or XModem)
- BBC-BASIC with Assembler support
</pre>
<pre>
How to get the Firmware Number ?
--------------------------------
Wenn you are in the main Menu (text editor, calculater, calender) push the
secret-button and the system-settings menu appears, the version number
will be shown in the first line of the sceen. I have a german NC100 and the
firmware number is v1.06.
PCMCIA Memory Cards
-------------------
A battery buffered PCMCIA SRAM-Memory Card will preserve you from data loss
even if your Notepad crashes and increases the available memory. It also
allows you to create a file with BBC-BASIC bigger than 1024 bytes. This is
because BBC-BASIC allocates all available memory on startup except 1024
bytes. The maxinun sice to use with the NC100 is up to 1M byte.
-2-�
How to open the NC100 ?
-----------------------
Before disassembling the Notepad you should save all your data! Then put
the Notepad on the table face down. Remove the four AA size batteries, then
unscrew the five screws (one under the battery cover). In the drawing below
they are marked with a "*"-sign. One screw fixes the cover of the firmware
EPROM.Place the Notepad the right way up and lift off the upper part of the
case. Be careful, because the display is still connected to the main-board
via a folio-flat-cable and so is the speaker! Don't be nervous, the cables
can be simply pulled out of their sockets. Now you can separate the covers.
┌────────────────────────────────────────────┐
│ │
│ │
│ │
│ │
│ │
│ │
│ │
│ Firmware EPROM │
│ (IC303) cover │
│ * ┌────────────┐ * │
│ ┌──┐ │ * │ ┌──┐ │
│ ┌┴──┴┐ └────────────┘┌┴──┴┐ │
│ │ │ │ │ │
│ │ │ │ │ │
│ └────┘ Open battery └────┘ │
│┌─────────────┐cover Lithium │
││ +│ battery┌────┐ │
│├───*─────────┤ cover │ │ │
││ -│ │ │* │
└┴─────────────┴─────────────────┴────┴──────┘
-3-�
What is inside?
---------------
Inside the NC100 is a SMD layout. I have a german NC100 and the plate is
labeled Amstrad plc 4500-001P-1, NA999-32142, manual marked C (A-H) and
1 (1-8). All IC's are SMD apart from IC303 which is on the backside of the
NC100 (behind the firmware EPROM cover). On the drawing below I have
labeled all IC's, but you can find it on the layout also!
Centronics RS232 6VDC
╔══════════════Ð══Ð═══════Ð══Ð═══Ð═════════ÐÐ╗
║ 4 * AA size -│ └───────┘ └───┘ └┘║
║ Batteries │ ┌─────┐┌──┐ ┌──┐309 ┌─┐311║
║ +│ │ │└──┘ └──┘ ├─┤ ║
╠════════════Ð═¥ │302 │308┌──┐305 ┌─┐└─┘313║
║ │ │ │ └──┼┬──┐└─┘314 ║
║ PCMCIA │301 └─────┘ └┴──┘ ┌─┐ ║
║ card-slot │ ┌─┐ 307 310┌──────┐304 └─┘312 ║
║ │ └─┘ ┌─┐┌─┐│303 │ ║
Ã───────┬────┘ └─┘└─┘└──────┘ ║
╠══Ð══Ð═¤Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══Ð══╣
║St│1 │2 │3 │4 │5 │6 │7 │8 │9 │0 │ │ │De│Bs║
Ã──┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴──Â
║Tab│Q │W │E │R │T │ │U │I │O │P │ │+ │ │ ║
Ã───┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┬─┴┐<┘ ║
║v │A │S │D │F │G │H │J │K │L │ │ │ │ ║
Ã────┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴─┬┴──┴┬──Â
║^ │ │X │C │V │B │N │M │, │. │ │^ │ ║
Ã─────┬┴─┬┴─┬┴──┴──┴──┴──┴──┴─┬┴─┬┴─┬┴─┬──┼──Â
║y │ │ │ │ │ │r │g │b ║
╚═════¤══¤══¤═════════════════¤══¤══¤══¤══¤══╝
-4-�
The tabel below gives a description of the IC's in the NC100:
╔════Ð═══════════════Ð════════Ð═══════════════════════════════════════╗
║IC-#│Label │Pin's │Description ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║301 │ZILOG │4*11= 44│Z84C00 ║
║ │Z84C0006FEC │PLCC 44 │CMOS, 6 MHz ║
║ │Z80 CPU │ │Z80 compatible Microprocessor ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║302 │NEC Japan │4*34=136│µPD 65034 ║
║ │D65034GD093 │PLCC 136│Customer Chip ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║303 │NEC Japan │2*16= 32│27C2001 = CMOS EPROM 256K*8 bit ║
║ │D27C2001 │DIL 32 │Firmware EPROM ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║304 │NEC JAPAN │2*14= 28│µPD 43257 A = CMOS SRAM 32K*8 bit ║
║ │D43257AGU-10LL │SO 28 │Memory layouted as an SO 32 (32 pin)! ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║305 │NEC Japan │2*14= 28│µPD 43257 A = CMOS SRAM 32K*8 bit ║
║ │D43257AGU-10LL │SO 28 │Memory ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║306 │MEMORY CARD │2*34= 68│PCMCIA/JEIDA Memory Cards Slot Type I ║
║ │ │PCMCIA │for max. 1M byte SRAM Memory, 5 Volt ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║307 │T 9224 HB │2*10= 20│TC8521 ║
║ │ 8521 AM │SO 20 │Real-Time-Clock ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║308 │NEC Japan │2*14= 28│µPD 71051 ║
║ │D71051 GU │SO 28 │UART (parallel to seriell transpose) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║309 │NEC Japan │2*10= 20│µPD 4711 ║
║ │D4711 AG │SO 20 │RS232-driver (shift level to +/- 10V) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║310 │not placed │2* 7= 14│74HC00 = CMOS-Logic 4 * NAND ║
║ │ │SO 14 │(only used if IC304/IC305 = 43256) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║311 │D4584G │2* 7= 14│4584 = CMOS-Logic 6 * Schmitt-Trigger ║
║ │ │SO 14 │ ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║312 │C339 G │2* 7= 14│LM339 = 4 * Comparator ║
║ │ │SO 14 │(used for battery level detection) ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║313 │D4013G │2* 7= 14│4013 = CMOS-Logic 2 * D-Flip Flop ║
║ │ │SO 14 │with set and reset ║
Ã────┼───────────────┼────────┼───────────────────────────────────────Â
║314 │D4584G │2* 7= 14│4584 = CMOS-Logic 6 * Schmitt-Trigger ║
║ │ │SO 14 │ ║
╚════¤═══════════════¤════════¤═══════════════════════════════════════╝
-5-�
Amstrad NC100/NC150 Simplfied Bock Diagram
------------------------------------------
╔══════════════════════════════╦═════════════©
║ Addressbus ║ │
║ ╔══════════════════════╦═════════════╗ │
║ ║ Databus ║ ║ ║ │A0
║ ║ ┌──────────┐ ┌──ð────ð──┐ ┌──ð────┴──┐ ┌──────┐ ┌────────┐
║ ╠══ÁD0-7 │ │D0-7 A0-15│ │D0-7 C/D │ │ │ │ │
║ ║ │ IC301 ã═════Á IC302 ã══Á IC308 ã══ÁIC309 ã═Á CN302 │
║ ║ │ │ │ ___│ │__ │ │ │ │ D-SUB9 │
╠══║══ÁA0-15 │ │ CS4├──┤CS │ │ │ │Serial │
║ ║ │ │ │ │ │ │ │ │ └────────┘
║ ║ │CPU CLK├─────┤CLK UCLK├──┤CLK │ │ │
║ ║ └──────────┘ │ │ │ │ │ │
║ ║ ┌──────────┐ │ │ │UART │ │ │
║ ╠══ÁD0-7 │ │ │ └──────────┘ │ │
║ ║ │ IC303 __│ │___ ____│ │____ │
║ ║ │ CE├─────┤CS0 STBY├────────────────┤STBY │
╠══║══ÁA0-13 │ │ │ │RS232 │ ┌────────┐
║ ║ │A14-17(19)ã══╦══ÁAO14-19 │ └──────┘ │ │
║ ║ │EPROM │ ║ │ ____ ___ │ │ CN301 │
║ ║ └──────────┘ ║ │ STRB,ACK,ã═════════════════════════ÁD-SUB25 │
║ ║ ┌──────────┐ ║ │ BUSY,│ │Paralell│
║ ╠══ÁD0-7 │ ║ │ PD0-7│ └────────┘
║ ║ │ IC304 │ ║ │ │ ┌────────┐ ┌────────────────────┐
║ ║ │ │ ║ │ │ │ │ │ │
╠══║══ÁA0-13 A14├── │ ã══Á CN303 ã═Á │
║ ║ │ __│ ║ │___ │ │14 Pins │ │ │
║ ║ │RAM CS├──║──┤CS1 │ │ │ │ │
║ ║ └──────────┘ ║ │ │ └────────┘ │LCD-Screen │
║ ║ ┌──────────┐ ║ │ │ ┌────────┐ └────────────────────┘
║ ╠══ÁD0-7 │ ║ │ │ │ │
║ ║ │ IC305 │ ║ │ KBO0-9ã══Á CN304 ã═══════════╗
║ ║ │ │ ║ │ │ │10 Pins │ ║
╠══║══ÁA0-13 A14├── │ │ │ │ ┌─────────ð──────────┐
║ ║ │ __│ ║ │___ │ └────────┘ │ │
║ ║ │RAM CS├──║──┤CS2 │ ┌────────┐ │ │
║ ║ └──────────┘ ║ │ │ │ │ │ │
║ ║ ┌──────────┐ ║ │ KBI0-7ã══Á CN305 ã═Á │
║ ║ │ A14-19ã══╝ │ │ │ 9 Pins │ │Keybord Matrix │
║ ║ │ IC306 │ │ │ │ │ └────────────────────┘
║ ║ │ BVD1/2├─────┤BVD1 │ └────────┘
╠══║══ÁA0-13 │ │ │ ┌────────┐
║ ║ │ D0-7ã═════ÁMD0-7 │ │ │ ┌─┐█
║ ║ │PCMCIA │ │ SP├─────┤ CN307 ├───────┤ │█
║ ║ └──────────┘ │ │ ┌──┤ 2 Pins ├───────┤ │█
║ ║ ┌──────────┐ │ POFF│ │ │ │ └─┘█
║ ╚══ÁD0-3 │ │ │ │ └────────┘
║ │ IC307 │ │ │ ▀▀▀ Speaker
║ │ __│ │___ │ ┌─────────────────┐ ┌────────┐
╚═════ÁA0-3 CS├─────┤CS3 POFF├─────┤OFF │ │ │
│ _____│ │ BD1, BD2,ã═════ÁLevel Detector ├─┤ CN306 │
│RTC ALARM├───┐ │ BVD2│ │__ ├─┤ │
└─┬─────┬──┘ │ └─┬─────┬──┘ ┌──┤ON ├─┤6VDC-IN │
│ ▄ │ │ │ ▄ │ │ │Power Supply │ └────────┘
└─┤█├─┘ │ └─┤█├─┘ │ └─────────────────┘
X302 ▀ 32.768K │ X301 ▀ 12.2M │
└───────────────┘
-6-�
Amstrad NC100/150 Power Supply Bock Diagram
-------------------------------------------
┌─────┐ ┌─────────────────┐
DC6V ┌┬─o───────────┼─────┼───┤ ├─────o +6V
┌┐ │└─o──────┐ + └─────┘ │ DC/DC-Converter │
││└┘ ───┴─── F301 │ ├─────o +5V
└┴────o─┐ ┌───┐ │ │
│ └─┬─┘ ┌──────┤ ├─────o 5VBK
AC-Adaptor │ ───┴─── │ │ and │ Lith. buff. RAM
Input │ ┌───┐ │ │ ├─────o -15V
│ └─┬─┘ │ + │ │ for LCD-Display
│ ───┴─── ───┴─── │ │
│ ┌───┐ ┌───┐ │ ├─────o BD1, IC302
│ └─┬─┘ └─┬─┘ │ Battery Level │ 4*AA<4.2V
│ ───┴─── │ - │ Detector ├─────o BD2, IC302
│ ┌───┐4*AA │Lith. │ │ Lith.<2.3V
│ └─┬─┘ │ │ ├─────o BVD2,IC302
│ │ - │ │ │ 4*AA<3.2V
└────o───────o──────┤ ON/OFF ├─────┐
│ └────────┬────────┘ │
▀▀▀ │ ▀▀▀
│
+6V │
o └─────────┐
│ │
┌┴┐ │
│ │ IC313A │
│ │ ┌─────────┐ │
S301 │ │ │ │ │
┬ └┬┘ │ S Q ├───┘
─┴─ │ │ │
┌────o o────o────o─────────────o├ ─ ─ ─ ─ ┤
│ │ │ │ │
▀▀▀ │ │ ┌─────────┤ R │
_____ │ │ │ │ │
IC307, ALARM o────┘ │ │ └─────────┘
___ │ │
IC301, NMI o─────────┘ │
│
IC302, POFF o──────────────┘
-7-�
On the next pages folowing the pinouts off the most important IC's used in
the NC100. '*' indicates active Low and 'NC' is Not Connected in the NC100
The Microprocessor (MPU, IC301)
------------------
Type : Z84C00
Manufacturer : Zilog Inc.
Description : Microprocessor, 8-Bit
Power Consumption : 15 mA typ. at 6 MHz
Process : CMOS
Supply Voltage : +5V
Operating frequency max. : 6 MHz
Package : PLCC 44 pin
Features :
- Commands compatible with Zilog Z80 MPU
- Powerful set of 158 instructions including the 78 of the 8080A
- 10 addressing modes
- Power down mode when the system clock is stopped
Pinout :
1 A11 23 *RD
2 A12 24 NC
3 A13 25 NC
4 A14 26 *WR
5 A15 27 *BUSACK
6 NC 28 *WAIT
7 CLK 29 *BUSREQ
8 D4 30 *RESET
9 D3 31 *M1
10 D5 32 *RFSH
11 D6 33 GND
12 NC 34 A0
13 VCC 35 A1
14 D2 36 A2
15 D7 37 A3
16 D0 38 A4
17 D1 39 A5
18 *INT 40 A6
19 *NMI 41 A7
20 *HALT 42 A8
21 *MREQ 43 A9
22 *IORQ 44 A10
-8-�
The Customer Chip (IC302)
-----------------
Type : µPD 65034
Manufacturer : NEC Electronics
Description : Customer Chip with multiple funktions
Process : CMOS
Supply Voltage : +5V
Package : PLCC 136
The chip has multiple funktions:
- Clock generator for CPU and UART
- Peripher Interface Adaptor (to printer, LCD-screen, keybord,)
- Memory Management Unit
- PCMCIA-Interface
- Sound generator for speaker
Pinout :
1 VDD 35 GND 69 VDD 103 GND
2 KBI1 36 GND 70 TEMP 104 GND
3 KBI5 37 AO18 71 UCLK 105 *STRB
4 KBI7 38 AO19 72 RRDY 106 *CD2
5 KBI6 39 GND 73 TRDY 107 *CD1
6 KBI4 40 CLK 74 *STBY 108 *CE1
7 KBI3 41 HALT 75 LD0 109 *OE1
8 KBI2 42 *MREQ 76 LD1 110 *WE1
9 KBI0 43 *IORQ 77 LD2 111 *REG
10 A0 44 *BACK 78 LD3 112 BVD2
11 A1 45 *BREQ 79 FRM 113 BVD1
12 A2 46 *WAT 80 DF 114 WP
13 A3 47 *M1 81 LOAD 115 MD3
14 A4 48 *INT 82 CP 116 MD4
15 A5 49 *RD 83 POFF 117 MD5
16 A6 50 *WR 84 SP 118 GND
17 GND 51 DO 85 GND 119 MD6
18 GND 52 D1 86 GND 120 MD7
19 A7 53 D2 87 BD1 121 MD0
20 A8 54 D3 88 BD2 122 MD1
21 A9 55 GND 89 *NMIC 123 MD2
22 A10 56 D4 90 *RES 124 TEST (NC)
23 A11 57 D5 91 URES 125 KBO9
24 A12 58 D6 92 *BUSY 126 KBO8
25 A13 59 D7 93 *ACK 127 KBO7
26 A14 60 RRD 94 PD7 128 KBO6
27 A15 61 *CS0 95 PD6 129 KBO1
28 AO14 62 *CS1 96 PD5 130 KBO2
29 AO15 63 *CS2 97 PD4 131 KBO5
30 AO16 64 *CS3 98 PD3 132 KBO4
31 AO17 65 *CS4 99 PD2 133 KBO3
32 X2 66 TRXC 100 PD1 134 KBO0
33 X1 67 GND 101 PD0 135 GND
34 VDD 68 GND 102 VDD 136 GND
-9-�
The Firmware EPROM (IC303)
------------------
Type : µPD 27C2001
Manufacturer : NEC Electronics
Description : EPROM, 2Mb, 8-Bit, UV-eraseable
Org. : 256K x 8 Bit
Process : CMOS
Supply Voltage : +5V
Standby : 0.5 mW
Operation : 150 mW
Package : DIL
Pinout :
1 NC (A19) 17 O3
2 A16 18 O4
3 A15 19 O5
4 A12 20 O6
5 A7 21 O7
6 A6 22 *CE
7 A5 23 A10
8 A4 24 *OE
9 A3 25 A11
10 A2 26 A9
11 A1 27 A8
12 A0 28 A13
13 O0 29 A14
14 O1 30 A17
15 O2 31 NC (A18)
16 GND 32 VCC
The NC100 can also control 27C4001 (512K), 23C2001 (256K), 23C4001 (512K),
23C8001 (1M byte) EPROM's! By the type of the EPROM there had to be set
some different connections, this connections are set by zerro Ohm
MSD-resistors from the backside of the plate close to IC303:
╔═════════Ð════════Ð══════Ð══════Ð══════Ð══════╗
║ IC303 │ Kbyte │ J301 │ J302 │ J303 │ J304 ║
╠═════════Ï════════Ï══════Ï══════Ï══════Ï══════╣
║ 27C2001 │ 256 │ │ │ + │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 27C4001 │ 512 │ + │ │ + │ ║
╠═════════Ï════════Ï══════Ï══════Ï══════Ï══════╣
║ 23C2001 │ 256 │ │ │ + │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 23C4001 │ 512 │ │ + │ │ + ║
Ã─────────┼────────┼──────┼──────┼──────┼──────Â
║ 23C8001 │ 1024 │ + │ + │ │ ║
╚═════════¤════════¤══════¤══════¤══════¤══════╝
+ = use
I have double my ROM-space by set in a 27C4001 EPROM, remove J304 and set
in J301 by a pice of wire.
-10-�
The Static Random Access Memory (SRAM, IC304 and IC305)
-------------------------------
Type : µPD 43257A
Manufacturer : NEC Electronics
Description : SRAM, 256K Bit
Org. : 32K x 8 Bit
Process : CMOS
Supply Voltage : +5VBK (Lithium battery buffered)
Standby : 0.5 mW
Operation : 225 mW
Package : SO 28
Pinout :
1 A14 15 DQ4
2 A12 16 DQ5
3 A7 17 DQ6
4 A6 18 DQ7
5 A5 19 DQ8
6 A4 20 *CS
7 A3 21 A10
8 A2 22 *OE
9 A1 23 A11
10 A0 24 A9
11 DQ1 25 A8
12 DQ2 26 A13
13 DQ3 27 *WE
14 GND 28 VCC
On my NC100 the IC304 is layouted as an SO 32 (32 pin). I belief you can
put some bigger RAM-chip in the circuit, but there is nothing about that in
the electronic diagram! There is only that the NC100 can control a 43256
RAM-chips. By the type of the RAM-chip there had to be set some different
connections and use IC310:
╔═══════════Ð══════Ð══════Ð══════Ð══════Ð═══════╗
║IC304, 305 │ J305 │ J306 │ J307 │ J308 │ IC310 ║
╠═══════════Ï══════Ï══════Ï══════Ï══════Ï═══════╣
║43256 │ + │ │ │ │ + ║
Ã───────────┼──────┼──────┼──────┼──────┼───────Â
║43257 │ │ + │ + │ + │ ║
╚═══════════¤══════¤══════¤══════¤══════¤═══════╝
+ = use
-11-�
The PCMCIA card slot (IC306)
--------------------
The NC-100 can use PCMCIA/JEIDA Memory Cards (PC-Cards) Type I, max. 1024K
(1M) byte static ram card, 5 Volts. You can bye them in 64Kb, 128Kb,
256Kb, 512Kb, and 1024Kb sizes.
The flash memory cards are not suitable for the NC-100. These have a
control register that must be written to before any read or write can take
place. Data transfers are then be done in sector chunks.
PCMCIA Card Connector Type I, 5 Volts:
1 mm 1 mm
││ ││
││ 34 1 ││
┌───────────────────────────────────────────┐│────────────
1.6 mm ───└┐ ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■ ││ 3.4 mm
───┌┘ ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■ └┐─── 1 mm
└────────────────────────────────────────────┘────────────
│ 68 35 │
│ 54 mm │
PCMCIA Version 2.0 Pinout:
1 GND 35 GND
2 D3 I/O 36 *CD1 O
3 D4 I/O 37 D11 I/O (NC)
4 D5 I/O 38 D12 I/O (NC)
5 D6 I/O 39 D13 I/O (NC)
6 D7 I/O 40 D14 I/O (NC)
7 *CE1 I 41 D15 I/O (NC)
8 A10 I 42 *CE2 I (NC)
9 *OE I 43 RFSH I (NC)
10 A11 I 44 RFU I (NC)
11 A9 I 45 RFU I (NC)
12 A8 I 46 A17 I
13 A13 I 47 A18 I
14 A14 I 48 A19 I
15 *WE/PGM I 49 A20 I (NC)
16 RDY/*BSY O 50 A21 I (NC)
17 VCC 51 VCC
18 VPP1 52 VPP2
19 A16 I 53 A22 I (NC)
20 A15 I 54 A23 I (NC)
21 A12 I 55 A24 I (NC)
22 A7 I 56 A25 I (NC)
23 A6 I 57 RFU (NC)
24 A5 I 58 RESET I (NC)
25 A4 I 59 *WAIT O (NC)
26 A3 I 60 RFU (NC)
27 A2 I 61 *REG I
28 A1 I 62 BVD2 O
29 A0 I 63 BVD1 O
30 D0 I/O 64 D8 I/O (NC)
31 D1 I/O 65 D9 I/O (NC)
32 D2 I/O 66 D10 I/O (NC)
33 WP O 67 *CD2 O
34 GND 68 GND
RFU = Reserved Future Use
-12-�
The Real-Time-Clock (RTC, IC307)
-------------------
Type : TC8521AP/AM
Manufacturer : Toshiba Corporation
Description : Real Time Clock
Process : CMOS
Supply Voltage : +5VBK (Lithium battery buffered)
Power Dissipat. max : 1.25 mW
Package : SO 20
Features :
- Clock funktion (hr, min, sec, date, day of week, year and leap year)
auto-calendar
- Clock system of 24-hour or 12-hour selectable
- +/- 30 sec correction funktion
- Alarm signal or pulse of 16Hz or 1Hz can be output
- Built-in 26*4 bit RAM
- 4-bit bidirectional data bus
- 4-bit adress input
- Directly connectable with CPU bus
- Capable of battery backup
Pinout :
1 *CS
2 CS
3 ADJ
4 A0
5 A1
6 A2
7 NC
8 A3
9 *RD
10 GND
11 *WR
12 D0
13 D1
14 D2
15 D3
16 *ALARM
17 NC
18 XIN
19 XOUT
20 VCC
-13-�
The Universal Asynchronous Receiver Transmitter (UART, IC308)
-----------------------------------------------
Type : µPD 71051
Manufacturer : NEC Electronics
Description : UART Serial Control Unit
Process : CMOS
Supply Voltage : +5V
Package : SO 28
Features :
- Synchronous and asynchronous operation
- Full duplex, double buffered transmitter / receiver
- Error detektion at parity, overrun and framing
- 5 to 8 bit characters
- Low power standby mode
- Functionally equivalant to the 8251A UART
Pinout :
1 D2
2 D3
3 RxDA TA
4 GND
5 D4
6 D5
7 D6
8 D7
9 *TxCLK
10 *WR
11 *CS
12 C/*D
13 *RD
14 RxRDY
15 TxRDY
16 SYNCBRK (NC)
17 *CTS
18 TxE MP
19 TxDA TA
20 CLK
21 RES ET
22 *DSR (NC)
23 *RTS
24 *DTR (NC)
25 *RxCLK
26 Vdd
27 D0
28 D1
-14-�
The RS232-Driver (IC309)
----------------
Type : µPD 4711A
Manufacturer : NEC Electronics
Description : RS232-Driver
Process : MOS-IC
Supply Voltage : +5V
Power Dissipat. : 60 mA
Package : SO 20
The RS232-driver shift up the TTL-level (0V/+5V) output from UART to
RS232-level (+10V/-10V).
Pinout :
1 Vdd
2 C1+
3 Vcc
4 C1-
5 STB
6 Din1
7 Din2
8 Rout 1
9 Rout 2
10 GND
11 Rcon
12 Rin2
13 Rin1
14 Dout 2
15 Dout1
16 Dcon
17 Vss
18 C4-
19 GND
20 C4+
</pre>
=== The RS232-connector pinout ===
(DTR just duplicates RTS)
<pre>
Pin I/O Description
5 GND Signal Ground
9 <─ RI Ring Indicator (NC)
4 ─> DTR Data Terminal Ready
8 <─ CTS Clear To Send
3 ─> TD Transmit Data
7 ─> RTS Request To Send
2 <─ RD Receive Data
6 <─ DSR Data Set Ready (NC)
1 <─ CD Carrier Detect (NC)
</pre>
Author:
<pre>
Hans-Jürgen Böhling
Bülowstr. 2
40476 Düsseldorf
Germany
e-mail : 101.107378@germanynet.de
homepage: http://www.germany.net/teilnehmer/101.107378/index.htm
</pre>
