The VECTREX Is a self-contained, microprocessor based, Vector Display, portable home video game arcade with external game cartridge program capability.

MPU 68A09 8K X 8 BIT DATA - 16 BIT ADDRESS Please note:
should read:
INTERNAL RAM 2114(2) 1K X 4 SIT (ea.)



Second Controller available as an accessory

Game Cartridges include a screen overlay.

120V AC
- 60HZ

DIMENSIONS: 9 3/4 X 11 1/2 X 14 1/2

WEIGHT: 15 Lbs.



As a general description, the MP3000 is a self-contained video game system intended for home use. The system includes its own 9" B&W monitor screen and 3" permanent magnet speaker.

ROM type cartridges are available offering arcade type video and sound game play. No external TV receiver hookup is needed or provided for. A front panel storable controller allows control over the game via joystick and push button action switches. For two player operation a second controller Identical to the single player controller is available as an accessory product. Both controllers attach to the main game console through nine wire coiled telephone style cables. There is a consumer power switch/volume control on the front panel as well as a game reset button. A consumer adjustable brightness control is located on the main console rear housing.

For the technical description Which follows, the reader is encouraged to refer to the block diagram and schematic.

The HP3000 is a microprocessor based, vector scan system using a standard 9" black & white CRT as its video display device. The microprocessor (MPU) is the Motorola 66A09 device. The MPU operates at 1.6 MHz from a 6 MHz external Xtal. An Internal divide by 4 circuit generates the MPU 1.6 MHz "E" clock signal used in the system. Program memory is stored in the 8K x 8 bit 2363 type ROM. This ROM contains common subroutines. the "executive" or assembler instructions plus one complete game.

Two 1 K x 4 bit 2114 type static. RAMS provide storage locations for data indicative of locations of objects, game status, and various other information needed by the microprocessor during game operation. Peripheral Interface Adaptor (PIA) Chip, has two 8 bit peripheral ports which interfaces the MPU with peripheral devices and external signals. One of the PIA ports Interfaces the General It Instrument AY-3-8912 sound-1.0. chip with the MPU and also drives the digital to analog converter hip MC1408. The other PIA port is used as control lines for the sound chip. selector control for the multiplex chip and as a means to read the A/D comparator that's used in the joystick successive approximation circuitry. Sound is either MPU generated directly or by use of the AY-3-8912 sound chip.

The AY-3-8912 sound chip is a programmable sound generator containing 3 tone generators and wave shaping circuitry. This chip also has a single 8 bit 1.0. port used to read the status of each of the handcontrollers 4 action switches.

The standard TTL device types 74LS00 and 74LS32 are used as control line decoders to allow the MPU to select the appropriate circuit element to be addressed at any particular time.

The analog processing section Includes digital to analog converter (DAC) Chip type MC1408. dual 4 channel multiplexer/demultiplexer chip type CD4052, and dual channel op-amps types LF353 and LF347.

DAC chip MC1408 receives an 8 bit word at data terminals 00-D7. DAC output (pin 4) is current source. One section of 10 LF353 is used to change this current to a voltage representative of the 8 bit digital word received by the DAC chip. The LF353 voltage is applied to an input of the dual 4 channel multiplexer (MUX) Chip CD4052. This same voltage (designated "DAC" on the schematic) 13 the X-axis drive signal.

The CD4052 MUX chip serves two purposes: It selectively Couples, under MPU control, the output %if the DAC current/voltage converter to one of 4 places and is used to selectively couple the inputs from the joystick pots to the voltage comparator IC LF353.

Th e 4 places to which the "DAC" signal is coupled by the MUX are:

1) The Y-axis sample and hold IC LF347
2) The "Q" reference Charge capacitor
31 The Z-aX13 (brightness signal) sample and hold IC LF347
4 iPU sound resistive matrix

Each of these 4 signals is a voltage value representative of the 8 bit DAC input word for that function.

The joystick pot positions are sensed by a successive approximation process. The MUX chip selects each joystick pot input line and applies it to the plus input of comparator IC LF353. At the same time the MPU generates digital wards that are changed to voltages by the DAC and current/voltage converter mentioned previously. These voltages are successfully applied to the comparator's minus input until the MPU generated voltage 13 equal to the joystick voltage. The MPU then recognizes the digital word representative of the comparison voltage and Is able to establish a location for the joystick pot, The present position for each joystick pot is sensed in this manner. The pot position Information is updated on a regular basis by the MPU.

Returning to the 4 and Y axis drive signals, these signals are applied to X,Y integrator IC LF347 negative Input pins through series analog switch types 4066B. The "zero" reference signal is applied to the positive inputs of the Integrators. There are also analog switches across the integrator IC capacitors. The series analog switches are controlled by MPU signal RAMP and the parallel capacitor switches are controlled by MPU signal Zero 10. RAMP 10 determines when and for how long the X and Y axis voltage levels will be applied to the integrator amps. Zero 10 is used to discharge the X & Y axis integrator caps thus Initializing them for the next signal to be integrated.

The outputs of the X,Y axis integrators are coupled through J-FET switches to IC LM379 deflection amplifiers. The LM379 operates as a voltage to current driver. the current through the deflection coils forming the electromagnetic field which deflects the CRT beam. To protect the CRT from spot burn in the event of a loss of deflection, the Y axis drive amplifiers output 13 detected and a deflection enable/disable signal generated. This signal controls the J-FET switches In series with the X,Y deflection amp inputs to reduce the scan drive signal in the event of a software or hardware failure plus discrete transistor type 2SC1921 operates to bias off the CRT.

Conventional full wave rectification and three terminal regulators are used in the low voltage power supply. A special negative DC source is generated by a voltage double-circuit which is used to supply a 13V to the DAC chip.

The high voltage is generated via an oscillator, drive transistor and flyback type transformer circuitry similar to what is commonly used In small black and white TV receivers.

Judicious use of bypass caps, RF filter chokes. ferrite beads, etc., has been used in the design to control RFI emissions.


A. Back Cover Removal

1. Lay the unit on a mat, CRT down.

2. Remove 5 screws from the back cover.

3. Remove the
back cover.

B. Power Board Removal

1. Remove all connectors (5) and HV lead from the CRT.

2. Unsolder three leads (2 red, 1 white) from the bottom rear of the board at location EP104, 105 and 106. (Note-- Two of these three leads go to the on/off volume control switch. the white lead goes to the power transformer (secondary C.T.)

3. Unsolder the Aquadag ground lead from
the top rear of the board.

4. Unsolder ground jumper (braid) between the logic board and power board.

5. Remove two small Phillips head screws from the bottom of the board that secures it to the frame.

6. Slide board back and remove It from the frame.

C. Logic Board Removal

1. Remove all cable connectors from the top of the board (3).

2. Unsolder ground jumper between the logic board and power board at the logic board (left side).

Unsolder and remove the 3 power leads at the power board. EP104,105 and 106. Unsolder 2 of these leads (red) plus 2 from the power transformer on the back of the on/off switch. Remove the logic board mounting frame which includes the speaker, power transformer and reset button by removing retaining screws that hold the frame to the front cover. There are two screws located Just above the power transformer bracket that must be removed also.

5. Remove the logic board mounting frame.

6. Unsolder the leads on the reset button.

7. Remove the retaining hardware on the front of the volume control, on/off switch.

8. Remove 4 small Phillips head screws on the top of the logic board that hold the board to the frame. One of the screws holds the plastic game cartridge guide to the logic board. Remove the guide.

9. Remove the logic board.

D. Power Transformer Removal


1. Remove the small screw holding the fuse cover and remove the cover.

2. Remove the screw in the center of the Fuse PCB and remove the PCB.

3. Unsolder the 2 power and two primary leads from the fuse PCB.

4. Unsolder and remove 2 red leads from the on/off switch mounted behind the volume control.

S. Remove the splice on the white lead (secondary C.T.).

6. Remove the two screws holding the power transformer to the frame. Note the ground lead on the right hand screw (as viewed from the rear) has a ground lug on it.

E. Speaker Removal

Follow steps I thru 7 under "Logic Board Removal."


1. After the frame is out, remove 2 small screws from the top of the speaker grill on the front of the frame. Lift up and out on the speaker grill. The speaker and grill will come out as one.

2. Unsolder speaker leads, note colors on + and - terminals and the position of the terminals -In relation to the speaker grill and frame. It must be replaced the someway for lead routing.

3. Loosen retaining clip holding the speaker In.

4. Gently slide the speaker out of the two plastic retaining lips and remove. Rough handling at this point will break these two plastic retaining lips and cause problems in securing another speaker in the assembly.


logic board schematic

(See Test Cartridge Procedure, Page 18)

After the Logic Board has been replaced and installed in the VECTREX, the following adjustments must be made.

A. Initial Power-up - Install Test Cartridge

1. Plug the unit in and turn it on, volume as required. The CRT should display GCE title page and introductory tuns should occur within fifteen (15) seconds of power-up. This should be followed by the test cartridge's title page,

1. Select "DAC Zero Test." These words will appear on the screen followed by a blank Screen.

the actual adjustment must be made during this blank screen interval. It will cycle back and
forth between the word display and blank screen.

Set your scope on "DC" and the 5mv/div scale. Connect the ground lead to ground on the board and Connect the probe to pin 1 of IC 304, adjust R302 "DAC OFFSET" POT for OVDC.

After the adjustment is completed. press the reset button.

it . may now be necessary to recenter the picture as the DAC zeroing will affect it. Use the centering magnets on the rear of the deflecti on yoke and the "Linearity Pattern" In the test
cartridge to set the centering. UNDER NO CIRCUMSTANCES IS R302 "DAC OFF-SET" TO BE USED TO

C. integrator Off-Set Test

select the -Integrator Of f-Set" test. Alternately adjust R333 "Y Rate Off-Set" and R335 "X Rate
Off-Set" POTS to align the cross bars I for intersection at the center of the diamond patterns.
The bottom row of diamonds is the most critical and
should be used to set these controls -
all patterns should be within one (1) line width.

D. Sound Test

select the 'Sound Test." The display will say "CHANNEL A." You should them hear the
sound start at a low frequency and increase In frequency. CHANNEL B and CHANNEL C
will follow with identical tones.

The next title on the CRT will be "NOISE ALL CHANNELS" and this will be noise (static).

The screen will remain blank and two (2) tones will be heard. This is the "CPU SOUND" check. If any are missing the board must be repaired.


power board schematic

After installation of the Power Board Assembly make the following checks and, if necessary, adjustments.

A. Install the Test Cartridge and turn the VECTREX on. The GCE title page on the CRT and the introductory tunae should occur within 15 seconds

B. Turn the brightness to minimum (R509) and measure the high voltage; It should be 5.8KV+/15OVDC.

C. To adjust the high voltage, connect an oscilloscope to T602 pin 7 and set the vertical at 20V/div and the horizontal at 10 usec/div.

Adjust R526 for minimum ringing in the displayed wave form.

Recheck the H.V. and adjust R525 to got proper reading (5.8KV+/- 105VDC).

Repeat the adjustments of these two controls until proper high voltage and minimum ringing are obtained.

Deflection Protect Circuit Check (Beam Cut Off)

Select the "Seam Cut Off" Test. Observe CRT monitor. The pattern will shrink in size, then disappear. In approximately 2-3 seconds, the pattern will reappear at about half-size and continues to increase in size and brightness until it Is full-size. then the cycle will repeat. As the pattern decreases, the circuit time constraints prevent the protect switches from activating. When the circuit allows the switches to activate. they will not turn on until the brightness and deflection reach the design limits. This Is when the pattern reappears at about half-size.

H. Audio Amp. Check

Select the "Sound Test" and with the volume control set at mid-range. monitor the audio. Sound chip channels A, B, C, and CPU round test signals must be audible with no noticeable distortion.


CRT removal, replacement and set-up is the same as most B/W TV tubes in most respects. The primary difference is in the centering technique.

AiLer the CRT/yoke has been installed, do a preliminary centering using the test cartridge linearity pattern for a display and the centering ring magnets on the yoke.

The next step is to set the "DAC ZERO" as directed in Paragraph 11 of the LOGIC BOARD ADJUSTMENTS. After that is completed again recenter, if necessary, using the ring magnets on the yoke.

Adjust vertical and horizontal height so the linear lines are at the top and bottom, left and right edges of the CRT and front cover. Also see R401 and R408.


hand control schematic

A. Remove the Hand Controller cord from the port In the Vectrex.

B. Remove the top Inlay by Inserting a tool between it and the case (use extreme caution not to injure yourself) and pry up one edge. Discard the tool and pull the inlay off,

C. Remove the five (5) screws and remove the top cover.

D. The P/C Board can be removed by taking out the screen in the center of the P/C Board.

The buttons and pad will then be easily removed.


Install Test Cartridge

Turn unit on after VECTREX announcement
Title page

Linearity Pattern
Check for:

1. Pin Cushion
2. Barreling
3. Keystone
4. Vertical Size
5. Horizontal Size
6. Centering


The next test will have the words "Adjust DAC Offset" followed by a blank screen. This is an Oscilloscope Procedure and should be bypassed by pressing Button 3 or 4 twice in rapid succession. NOTE. The DAC offset test cannot be escaped from via the controller keys unless the words "ADJUST DAC OFFSET" are on the screen. The words reappear for a short period every 6 seconds. Reset will allow escape at any time.


All lines must meet and be continuous.

Press Button 3 or 4:

Wait a few seconds and the checksum will appear and read:


(B796) must appear.

Press Button 3 or 4


Pattern will decrease in size. then disappear, then reappear in about 2-3 seconds and be about half size and continue to Increase until process repeats itself.

Press Button 3 or 4 SOUND TEST:

Words "CHANNEL A" will appear on bottom of the screen should have a one octave tone going from low to high smoothly and continuously.

words "CHANNEL B" will appear In the middle of the screen with same tone as above.

Words "CHANNEL C" will appear at the top of the screen with the same tone as above.

Words will appear In the center of the screen "NOISE ALL CHANNELS." There will be sound like static for a short duration. Screen will go blank, then you will hear two tones. This is the CPU sound check.

press either Button 3 or 4:

The word "INTENSITY- will appear with 17 equally spaced lines running horizontally across the screen, The 2nd, 3rd and 4th line from the top should be extinguished: the 5th from the top sits right on top of the word "INTENSITY." and should be visible.


Press Button 3 or 4: FOCUS TEST

The focus pattern will appear with symbols.


These symbols should be clearly focused in the center of the screen with minimum unfocus on four (4) corner symbols.

Press Button 3 or 4:

A border of triangles will appear on the screen with (DISTORTION) words in the center. If dissymmetry is apparent, make a note.

Press Button 3 or 4.

A rectangle will appear with the words (DISTORTION 2) in the center. There are 16 rectangles traced around each other.


The spacing of each side must be the same for each succeeding rectangle and the overall pattern must be symmetrical.

Press Button 3 or 4.

The key and Joystick pattern will appear:

Press Buttons 1 thru 4 consecutively. The proper symbol must appear as each button is pushed in the appropriate square on the top row.

Displace the Joystick 90 degrees to the right slowly. The same symbol as above must appear first in the box closest to the center, then disappear and the outer box must Indicate the symbol. There will also be a line that extends f from the center of the diagram In the direction the Joystick is pushed. Check all four directions and check that the appropriate box lights up. Also slowly sweep the Joystick 360 degrees at its limits and make sure the line moves smoothly with no dropouts at any point.

Remove the hand control cord from its port and move it to the left port. Repeat the above test.

NOTE; If the left joystick is not plugged In, one of the inner boxes will light because of the 1MEG pull-up resistor Internal to the VECTREX.

To escape from the controller test, hold Key 1 down while pressing either Key 3 (to back up to the distortion test) or Key 4 (to advance to the grid pattern).