Path: recepsen.aa.msen.com!spool.mu.edu!caen!night.primate.wisc.edu!newsspool.doit.wisc.edu!uwm.edu!vixen.cso.uiuc.edu!news.uoregon.edu!news.u.washington.edu!carson.u.washington.edu!rrcc From: Raymond Carlsen Newsgroups: comp.sys.cbm Subject: Commodore plus/4 info... Date: Tue, 27 Jun 1995 09:05:23 -0700 Organization: University of Washington Lines: 182 Message-ID: NNTP-Posting-Host: carson.u.washington.edu Mime-Version: 1.0 Content-Type: TEXT/PLAIN; charset=US-ASCII To: clausb@hpbbn.bbn.hp.com X-Status: U I own a Commodore Plus/4 Computer, and was fortunate enough to get it with a working power supply and two books: The Users' Manual and the Integrated Software Manual. Most people who own one of those "orphan" computers inherit the keyboard only, and are hard pressed to make it work with little or no information and usually no periferals or software. The Plus/4 came after the VIC-20 and the C-64 (about 1984), and is not software compatable with either of those computers, although it does share some hardware compatability. I decided to do a little digging inside my Plus/4 and share whatever information I could. As a repair tech, I'm more into hardware than software or programming, and I have no schematics or disk software. I'm working by "seat of the pants", so standard disclaimers apply! I hope this info is helpful to other owners of orphan Plus/4s. ********************************************** The Plus/4 comes up in Basic V3.5 with usable memory a little over "60K bytes free" (The C-64 comes up with about 40K). Commands are similar to the C-128 (DIRECTORY, HEADER, DLOAD, and COPY, for example) and such things as reprogramming Function keys is possible. Obviously the Plus/4 requires software written for its' version of Basic, and memory locations are specific to this model. For example, screen memory goes from location 3072 to 4071 (40X25 screen) and color memory from 2048 to 3047. Basic starts at $8000. One source of "orphan" software is Jack Vanderwhite (CEE-64 Alive!) PO Box 232115 Sacramento, CA. 95823 (916) 395-9773. He posts frequently on the Internet Newsgroup: comp.sys.cbm. The Plus/4 has several built-in programs stored on internal ROMs. There is a Word Processor, File Manager, Spreadsheet, Graphics, and a ML Monitor called TEDMON. The internal programs are initiated from the Basic startup screen by pressing the F1 key. A SYS number is displayed... hit -return-. This starts the word processor. Hold down the C= key and press C to activate the Command mode, indicated by the "W>" prompt at the bottom of the screen. Type TF (To the File manager) and -return- to go to the "database". Similarly, typing TC (To the spreadsheet Command) and TW (To the Word processor) will move to those ROM programs. Most commands are two-letter combinations such as: LF (Load File) followed by -return-. TEDMON is started from Basic by typing MONITOR -return-, and exited by typing X -return-. GRAPHICS is part of the spreadsheet and allows manipulation of charts and graphs. The GRAPHIC command entered from Basic allows direct entry of HiRes graphics characters, drawing shapes and controlling color. Because they are integrated, data can be moved across the internal ROM programs. Obviously this is a simplified overview and is intended only to get you started if you don't have the books. To properly run these programs, you need the Integrated Software Manual. The Plus/4 has three voices (or rather two programmable tone generators and a noise generator). The first two output square waveforms and # three outputs noise for special effects. To enable and play voice #2... 10 VOL 7: REM sets volume level (0 is off) 20 SOUND2,800,360: REM turns on #2, sets freq (about 500Hz), sets the on-time (about 2 seconds). ********************************************* The RF (TV) output is the same as on the C-64. An RCA jack on the right side of the Plus/4 will connect, through an adaptor or switchbox, to a standard Color TV set. There is a switch near the connector to select channel 3 or 4. The color screen shows a 40 column display with border. The Plus/4 serial port is identical to the C-64 and will work with drives such as the 1541 and 1551 as well as CBM printers. The User port (RS-232) appears the same as the C-64 and uses 5 volt TTL level input/output signals. It will work with CBM modems such as the 1660 with no modifications, but like the C-64, requires an adaptor to interface IBM type (Hayes compatable) modems. The Memory Expansion Port (Cartridge port) is different from a C-64. The connector looks similar, but has a total of 50 pins compared to the C-64 which has 44. The SFS-481 Disk Drive and specific Plus/4 cartridges were made to interface this parallel port. I was unable to find the pinout, but I believe the Programmers Manual has that information. The cassette port is a 7 pin Mini-DIN type similar to the joystick ports but with a slightly different pin spacing. It works with the 1531 Datasette. I do not have the pinout. The power supply for the Plus/4 is the same as the C-64, namely the non-repairable "black brick" which outputs two voltages: 5 volts DC at about 1 Amp, and 9 volts AC. Although some Plus/4s were built with the round DIN type connector, most have a square 4 pin type, similar in appearance to the C-128. The pinout is as follows (viewed facing rear of computer): ----v---- 9VAC ------|-0 0-|------ 9VAC | | +5VDC ------|-0 0-|------ Ground |_________| *********************************************** The video port (8 pin DIN) is nearly the same as the later models of C-64, and monitors such as the 1702 (separated Y and C) will work with no modifications. As with the C-64, a standard 5 pin DIN plug will also work for monitors that accept only composite video and audio. The only difference in the Plus/4 is -two- audio outputs, whereas the C-64 has an audio -input- on one of those pins. The unloaded level on the second audio output line is over 1 volt (PP). The lower level output connects internally to the RF modulator as in the C-64. The pinout is as follows (facing rear of computer): ________ Chroma Out | | NC ------0 | 0------ NC | Audio Out ------0 0 0--- Luminance & Sync Out (1VPP) ------0 0------ Comp Video Out Std Audio Out 0 (.5VPP) \________ Ground ********************************************** The joystick connectors are a departure from the "standard" 9 pin "D" types that are used on the C-64 and the C-128. The 8 pin joy port connectors on the Plus/4 are called Mini-DIN. They were used for the joystick ports on the short-lived Commodore 16, and have also been used on Apple (MAC) computers for many years and more recently for S-Video (4 pin) on TVs and VCRs. The following is a small program to test the joystick ports of the Plus/4. 10 PRINT JOY (1) 20 PRINT JOY (2) 30 GOTO10 This Basic program scrolls a number on the screen. The numeric value depends on which direction the joystick is moved. Each position of the joystick (or a pressed Fire button) represents a contact closure (grounding one or more pins of the joy port). For example, when the joystick is moved to the left, the number on the screen will go to 7. If no switches are closed, the output number will be zero... Output Function ------ ------------------ 0 NO SWITCHES CLOSED 1 UP 2 UP AND RIGHT 3 RIGHT 4 RIGHT AND DOWN 5 DOWN 6 DOWN AND LEFT 7 LEFT 8 LEFT AND UP 128 FIRE (JOYSTICK #1) 135 FIRE (JOYSTICK #2) Here is the pinout for the Joystick ports. It is shown facing the rear of the computer. Note the offset center pin! _____ Ground | ______ Right | | Unknown ------0 0 | 0------ Fire | +5VDC ------0 0 0------ Left Down ------0 0------ Up ********************************************** Since Plus/4 joysticks are so rare, standard CBM and Atari types could be modified by cutting off the 9 pin "D" connector and installing the 8 pin Mini-DIN male plug, or just changing the cable for one with the Mini-DIN. Be careful with the wiring! There is a +5 volt source on those joyports. You could damage ICs in the computer if you accidently short the 5 volts to ground. I would put a 100 ohm resistor on the ground-return side of the switches, just to be safe. The larger electronic parts houses sell Mini-DIN plugs and cables. One source here in Seattle is Westlake Electronic Supply 1-800-523-8677 FAX: (206) 628-0508. They carry the GC Electronics line. The 8 pin Mini-DIN is GC #33-938BU and the 7 pin cass. port plug is GC #33-937BU. A less expensive 8 pin is GC #45-1160, and 7 pin is GC #45-1159. Two other sources for DIN plugs are: Jameco Electronics 1-800-831-4242 and JDR Microdevices 1-800-538-5000. Jameco sells a printer cable (Apple MAC) with 8 pin Mini-DINs on each end: part #10604. It sells for $4.95. That 6ft. cable could be cut in half to make two 3 ft. joystick cables. ******************************************** The proprietary IC chips used in the Plus/4 are apparently not used in any other CBM equipment, and I know of no sources for these parts. The rest of the chips are mostly LS TTL devices available anywhere. Here is the chip complement: U1 8360R2 40 pin VIC (40 Col NTSC) U2 8501R1 40 pin CPU U3 8551 28 pin ASIC (RS-232 interface) U5 & U27 6529B 20 pin ? ? (parallel interface?) U19 251641-02 28 pin ROM \ U23 318006-01 28 pin ROM | U24 318005-05 28 pin ROM |--- Built-in programs U25 317055-01 28 pin ROM | U26 317054-01 28 pin ROM /