Jaguar Test Procedures

and Specifications

 

Contents

1.0 Overview

2.0 Functional tests

2.1 Full Attended Test Procedure

2.2 Full Unattended Test Procedure

2.3 Motherboard Attended Test Procedure

2.4 Motherboard Unattended Test Procedure

2.5 Frequency Test

2.6 Voltage and Current Test

2.7 Environmental Test

2.8 Voltage range Test

2.9 Life Test

2.10 Short life test

2.11 Extended Video test

2.12 Extended Audio test

2.13 Digital signal test

2.14 Extended user test #1

3.0 SPC parameters

4.0 JTC DIP switch settings, and test cartridge configuration

5.0 Multi-system TV setups

 

1.0 Overview

This document describes various test procedures and specifications which may be run in production or in the field. It is referred to by various test and QA documents from time to time, including the Jaguar acceptance specification (Rev B and beyond).

It is not a definition of the tests which must be run in production - that is defined in the Jaguar acceptance specification.

Many of the tests require the use of the Jaguar functional test card (Atari Part number 700044). This hardware is described in the specification APN 500401. The software which runs on this card and others, is described below, as well as the DIP switch settings for that card, which are read by this software.

The Jaguar acceptance specification (APN 500344) requires the use of statistical control procedures (SPC) to control quality. The manufacturer is responsible for sampling units according to SPC parameters. Section 3 below describes some suitable parameters for data logging for SPC.

These tests can also be used for Ongoing Reliability Testing, which is also required by the acceptance specification.

 

 

2.0 Functional Tests

2.1 Full Attended Test Procedure

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

APN 700044 Assy, Jaguar functional test card. EPROMs dated 10/28/93

APN 500355 Cable, Jaguar PAL RF

APN 500335 Cable, Jaguar Video loopback

APN 500334 Cable, Jaguar DSP loopback

APN 500402 Cable, Jaguar Video test

APN C303106 Cable, Joystick loopback (QTY 2)

APN 500403 Cable, Jaguar test card to RS232 terminal (optional)

n/a Multi-system, RGB/Composite/RF Television (modified with select switch as shown in section 5.0 below)

APN 500273 Jaguar AC adaptor (110V AC)

Setup:

Connect the equipment to the UUT as shown in drawing APN 700043

Set the JTC DIP switches as follows:

1 2 3 4 5 6 7 8

Off Off Off On Off Off On Off

(disables analog joystick test, enables analog audio and simultaneous tests)

Set the monitor switch to 'RGB'

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure:

Switch the RGB/Composite cable switch to 'RGB'

Apply 9V DC power to the UUT

Turn on the power switch on UUT

Analyse the pass/fail data on the terminal or, wait for amber LED to turn off and either the red or green LED to turn on (see pass/fail

criteria below)

Inspect solid white image for clarity. In particular, check for vertical black lines, or any dots in black or any other colour

After more than 5 seconds, press the 'select' switch, or any key on the terminal

Inspect (RGB) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'Composite'

Inspect (Composite) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'RF'

Inspect (RF) image for clarity (as described in the pass/fail criteria below)

Check for 1KHz test tone coming through the monitor speaker

Switch monitor to 'RGB'

Press the 'select' switch, or any key on the terminal

Inspect (RGB) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'Composite'

Inspect (Composite) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'RF'

Inspect (RF) image for clarity (as described in the pass/fail criteria below)

Press the 'select' switch, or any key on the terminal

Pass Criteria:

The Green LED on the JTC must be on, and the Amber and Red LEDs must be off at the end of the test

If a terminal is connected, the words "UUT passed" must appear on the last line

 

The monitor images are judged as follows:

RGB mode shows the best quality. Images shown in RGB mode must have sharp, clear edges. There must be no colour bleeding at all. There must be no 'snow', or visible video 'noise' or 'flickering'.

Composite images show excellent quality, although they are slightly inferior to RGB. There will be a very small amount of colour bleeding, in particular on red edges. From a distance of 4 feet, the picture should be indistinguishable from RGB on a 14 inch monitor. There must be no 'snow', 'noise' or 'flickering'.

RF mode will look very similar to Composite, with the exception of a small amount of additional 'blur' on the edges of images. From a distance of about 6 feet, the picture should be indistinguishable from RGB on a 14 inch monitor. There must be no 'snow', 'noise' or 'flickering'.

The audio tones should be clear, with no noticeable crackling

Fail Criteria:

If any of the pass criteria above are not met, the unit must be considered to have failed.

If the image 'rolls' (loss of synchronisation), or 'shimmers' or 'flickers' in any way, the unit has failed.

There must be no visible 'snow' or 'video noise' on any images.

2.2 Full Unattended Test Procedure

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

APN 700044 Assy, Jaguar functional test card. EPROMs dated 10/28/93

APN 500355 Cable, Jaguar PAL RF

APN 500335 Cable, Jaguar Video loopback

APN 500334 Cable, Jaguar DSP loopback

APN C303106 Cable, Joystick loopback (QTY 2)

APN 500403 Cable, Jaguar test card to RS232 terminal

-- RS232 terminal

APN 500273 Jaguar AC adaptor (110V AC)

Setup:

Connect the equipment to the UUT as shown in drawing APN 700043

Set the JTC DIP switches as follows:

1 2 3 4 5 6 7 8

Off Off On On Off Off On Off

(disables analog joystick test, enables analog audio and simultaneous tests)

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure:

Turn on power to the UUT

Monitor the data output on the RS232 terminal

Pass criteria:

The words "UUT Passed" must appear on the terminal. This is the only pass criteria. Any other message on the last line means that the UUT has failed. In most circumstances the failure code will be shown on the terminal.

2.3 Motherboard Attended Test Procedure

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

APN ?????? Assy, Jaguar test cartridge, EPROMS dated ?????

APN 500355 Cable, Jaguar PAL RF

APN Cable, Jaguar Peritel

APN Controller, Jaguar (QTY 2)

APN ?????? Cable, Jaguar to RS232 terminal (optional)

-- RS232 terminal (optional)

n/a Multi-system, RGB/Composite/RF Television (modified with select switch as shownin section 5.0 below)

APN 500273 Jaguar AC adaptor (110V AC)

Setup:

Connect the Peritel and RF cables between the TV and the UUT. Plug the test cartridge in, and connect the AC adaptor. Plug controllers into the joystick 1 and 2 connectors.

Set the monitor switch to 'RGB'

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure:

Switch the RGB/Composite cable switch to 'RGB'

Turn on the power switch on UUT

Wait for screen to show vertical colour bars, then a solid white screen

Inspect solid white image for clarity. In particular, check for vertical black lines, or any dots in black or any other colour

After more than 5 seconds, press the A button on the left joystick (joystick 1)

Inspect (RGB) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'Composite'

Inspect (Composite) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'RF'

Inspect (RF) image for clarity (as described in the pass/fail criteria below)

Check for 1KHz test tone coming through the monitor speaker

Switch monitor to 'RGB'

Press the A button on the left joystick (joystick 1)

Inspect (RGB) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'Composite'

Inspect (Composite) image for clarity (as described in the pass/fail criteria below)

Switch monitor to 'RF'

Inspect (RF) image for clarity (as described in the pass/fail criteria below)

On NTSC units, switch the modulator to channel 4, then ...

Inspect (RF) image for clarity (as described in the pass/fail criteria below)

Switch modulator back to channel 3

Press the A button on the left joystick (joystick 1)

The image of a joystick should appear on the monitor

Press each button on controller 1 and make sure that that button alone, appears highlighted on the monitor image

Press the '#' button on controller 2

Press each button on controller 2 and make sure that that button alone, appears highlighted on the monitor image

Pass Criteria:

The image on the monitor must be that of a controller, with a green background. The test images must have all passed the criteria described below, and the controller key tests must have passed as decribed in the procedure

The monitor images are judged as follows:

RGB mode shows the best quality. Images shown in RGB mode must have sharp, clear edges. There must be no colour bleeding at all. There must be no 'snow', or visible video 'noise' or 'flickering'.

Composite images show excellent quality, although they are slightly inferior to RGB. There will be a very small amount of colour bleeding, in particular on red edges. From a distance of 4 feet, the picture should be indistinguishable from RGB on a 14 inch monitor. There must be no 'snow', 'noise' or 'flickering'.

RF mode will look very similar to Composite, with the exception of a small amount of additional 'blur' on the edges of images. From a distance of about 6 feet, the picture should be indistinguishable from RGB on a 14 inch monitor. There must be no 'snow', 'noise' or 'flickering'.

The audio tones should be clear, with no noticeable crackling

Fail Criteria:

If any of the pass criteria above are not met, the unit must be considered to have failed.

If the image 'rolls' (loss of synchronisation), or 'shimmers' or 'flickers' in any way, the unit has failed.

There must be no visible 'snow' or 'video noise' on any images.

2.4 Motherboard Unattended Test Procedure

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

APN ?????? Assy, Jaguar test cartridge, EPROMS dated ?????

APN 500355 Cable, Jaguar PAL RF (optional)

APN ?????? Cable, Jaguar to RS232 terminal (optional)

-- RS232 terminal (optional)

-- RF TV (optional)

APN 500273 Jaguar AC adaptor (110V AC)

Setup:

The pass / fail result of this test can be monitored on either an RS232 terminal, or on a TV attached to the UUT

Connect either the RF cable between the TV and the UUT, or the RS232 adaptor between a terminal and the UUT. Plug the test cartridge in, and connect the AC adaptor.

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure:

Turn on power to the UUT

Monitor the data output on the RS232 terminal, or look at the TV

Pass criteria:

The words "UUT Passed" must appear on the terminal., or the TV screen must be a solid green. These are the only pass criteria. Any other message on the last line, or any other image on the TV, means that the UUT has failed. In most circumstances the failure code will be shown on the terminal.

 

2.5 Frequency test

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

Equipment Required:

APN 500273 Jaguar AC adaptor (110V AC)

n/a Frequency counter, 6 digit, operational up to 27MHz

n/a Oscilloscope, suitable for measuring duty cycle of clocks

up to 27MHz

Either,

APN 700044 Assy, Jaguar functional test card, plus

APN 500403 Cable, Jaguar test card to RS232 terminal , plus

RS232 terminal

or,

APN 700050 Field test cartridge, plus

APN 500405 RS232 adaptor module, plus

n/a RS232 terminal

or, Any released game cartridge, plus

TV or monitor with suitable Jaguar cable

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure and pass criteria:

Turn on the UUT and either select from diagnostics the Simultaneous test (D8), or if using a game cartridge, simply start up the game and let it run in demo mode

Check that these frequencies and duty cycles are within the following limits:

PAL NTSC

Test Point Signal Lower Center Upper Lower Center Upper Duty Cycle

=================================================================

TP4 CHR_CLK4 17734209 17734475 17734741 14317965 14318180 14318395 40/60

TP3 VCLK 26593501 26593900 26594299 26590507 26590906 26591305 40/60

TP2 SYSCLK 26593501 26593900 26594299 26590507 26590906 26591305 40/60

TP1 CPUCLK 26593501 26593900 26594299 26590507 26590906 26591305 40/60

TP7 PLL 15625 15625 15625 15734 15734 15734 20/80

TP26 HSL 15625 15625 15625 15734 15734 15734 N/A

=================================================================

 

2.6 Voltage and Current Tests

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

Equipment Required:

Either,

APN 700044 Assy, Jaguar functional test card, plus

APN 500403 Cable, Jaguar test card to RS232 terminal , plus

-- RS232 terminal

or,

APN 700050 Field test cartridge, plus

APN 500405 RS232 adaptor module, plus

-- RS232 terminal

Plus,

APN 500273 Jaguar AC adaptor (110V AC)

-- Oscilloscope, with probe with short (less than 2 inches)

ground lead

-- Voltmeter

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Test bench should ideally be conductive, and set well away from any electromagnetic fields (such as TVs or monitors)

Procedure:

If using a jaguar test card, set DIP switch 7 to OFF. This will disable the automatic test mode

Turn the UUT on, and select from the RS232 terminal (Press keys marked in brackets):

[D] Diagnostics

[7] Object processor tests

[6] Colour bars

[ESC] Object processor tests

[ESC] Main menu

[8] Simultaneous tests

[1] Turn on 68000

[2] Turn on U13 (Tom)

[3] Turn on U15 (Jerry)

This will turn on a high resolution video image (24 bits per pixel), whilst three processors are simultaneously thrashing the system bus. This is an excellent general purpose system test.

Probe DRAM, VIDEO and RF as described below

Cycle power to the UUT. Then select from the RS232 terminal:

[D] Diagnostics

[7] Object processor tests

[6] Colour bars

[ESC] Object processor tests

[ESC] Main menu

[4] Audio tests

[1] 1KHz Sine wave

[ESC] Main Menu

[8] Simultaneous tests

[1] Turn on 68000

[2] Turn on U13 (Tom)

Ignore the count/fail code for the DSP - it is invalid since the DSP (U15) is doing the 1KHz sine wave

Now probe AUDIO as described below

Probe procedure:

In the following tests, it is extremely important to use a very short ground lead on the oscilloscope probe. A long lead will pick up electromagnetic impulses from the PCBA, and give spurious results

Probe points:

DRAM: Probe pin 1 of U33 (40 pin, SOJ DRAM), with the ground lead connected to pin 40 of the same IC.

VIDEO: Probe pin 1 of U3, with the ground lead at pin 11 of U3

AUDIO: Probe pin 8 of U4, with the ground lead at pin 4 of U4

RF: Probe pin 1 of the RF modulator, with the ground lead on the modulator shield

Measurements:

VCC: Using a voltmeter, measure DC voltage (accurate to +/- 10mV)

HF Noise: Using oscilloscope, set voltage range to 20 or 50mV/division AC, and the timebase to 20us/division. Measure the peak to peak high frequency noise

LF Noise: Using same oscilloscope, insert 20MHz bandwidth limiter. Measure low frequency ripple and noise

 

Pass Criteria:

Test Point VCC HF Noise LF Noise

==========================================================================

DRAM +5V +/-50mV < 150mV < 110mV

VIDEO +5V +/-150mV < 50mV < 30mV

AUDIO +5V +/-50mV < 50mV < 5mV

RF +5V +/-150mV < 80mV < 30mV

==========================================================================

 

2.7 Environmental Tests

The following tests use tests described elsewhere in this document, including repeat mode, which can be accessed by refering to section 4.0 below.

2.71 High Temperature Operation

Run the Unattended Motherboard test in repeat mode, at an ambient temperature of 35°C for a period no less than 1 hour

Whilst maintaining this temperature, run the Full Attended test

2.72 Low Temperature Operation

Run the Full Unattended test in repeat mode, at an ambient temperature of 0°C for a period of no less than 1 hour

Whilst maintaining this temperature, run the Full Attended test

2.73 High Temperature resistance

Run the Full Attended test after the UUT has been in storage for 7 days at 65 degrees centigrade

2.74 Low temperature resistance

Run the Full Attended test after the UUT has been in storage for 7 days at -30 degrees centigrade (no condensation)

2.75 Moisture resistance

Run the Full Attended test after the UUT has been in storage for 7 days at 45 degrees centigrade, 90% relative humidity

2.76 Temperature cycle resistance

Run the Full Attended test after the UUT has undergone fifty temperature cycles in storage. Each cycle is defined as one hour at 50 degrees C, followed by one hour at 0 degrees C

 

2.8 Voltage range Test

Run the Full Attended test whilst varying the following parameters:

a) 7.0V at DC input jack

b) 13.0V at DC input jack

c) 4.0V at Vcc and audio_vcc signals, after disconnecting DC-DC convertors

d) 6.0V at Vcc and audio_vcc signals, after disconnecting DC-DC convertors

Note that the RS232 terminal may not work when less than +5V is available at Vcc. The LEDs on the JTC will continue to work however.

 

2.9 Life test

Run the Full Unattended test in repeat mode for 7300 continuous operating hours.

Run the Motherboard Unattended test 10950 times.

Insert then remove the Cybermorph game cartridge 10950 times with power applied to the UUT.

Insert and remove controller 1, controller 2, and a composite video connector 3650 times.

Then run the Full Attended test.

 

[This life test was designed to simulate 5 years of heavy use, 7300 operating hours (4 hours per day), 10950 power cycles (on/off 6 times per day), 10950 cartridge insertion/removal cycles (6 games per day), 3650 insertion/removal cycles of any connector (2 times per day)]

 

 

2.10 Short Life test

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

Equipment Required:

APN ?????? Cartridge, Jaguar Cybermorph

APN 500355 Cable, Jaguar PAL RF

-- TV

APN 500273 Jaguar AC adaptor (110V AC)

Setup:

Insert the cartridge in the UUT, and connect the RF cable and AC adaptor as normal.

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Procedure and pass/fail criteria:

Turn on power to the UUT, and allow the game to begin and go into demo mode. Leave the game running for 1 hour.

At the end of the hour, check that the game is still running in demo mode. Check that the music is playing normally, and is clear (without crackles). Check that the video quality is normal, without snow, dots or other abberations.

 

 

2.8 Extended video test

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

Either,

APN 700044 Assy, Jaguar functional test card, plus

APN 500403 Cable, Jaguar test card to RS232 terminal , plus

-- RS232 terminal

or,

APN 700050 Field test cartridge, plus

APN 500405 RS232 adaptor module, plus

-- RS232 terminal

Plus,

APN 500273 Jaguar AC adaptor (110V AC)

-- Oscilloscope, with probe with short (less than 2 inches)

ground lead

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Test bench should ideally be conductive, and set well away from any electromagnetic fields (such as TVs or monitors)

Procedure:

If using a jaguar test card, set DIP switch 7 to OFF. This will disable the automatic test mode

Turn the UUT on, and select from the RS232 terminal (Press keys marked in brackets):

[D] Diagnostics

[7] Object processor tests

[6] Colour bars

[ESC] Object processor tests

[ESC] Main menu

[8] Simultaneous tests

[1] Turn on 68000

[2] Turn on U13 (Tom GPU)

[3] Turn on U15 (Jerry DSP)

This will turn on a high resolution video image (24 bits per pixel) of colour bars, whilst three processors are simultaneously thrashing the system bus.

 

Probe procedure:

Set oscilloscope to 200mV/division AC, 10us/division

Probe L6 (composite video). Set the 'scope to trigger so that a full video line (64us) can be seen:

 

 

 

 

This is the well known video colour bars. The peak to peak level should be 1.0V ±100mV when a composite monitor is connected (ie a 75 ohm load). With no load the signal will be double this value.

Probe pin 2 on the modulator MOD1. This is also a composite video signal and should show 1.0V +/- 100mV peak to peak.

Probe L15 (Red), L11 (Green) and L14 (Blue). With no load, these signals should be 1.4V peak to peak, ± 100mV. With 75 ohm load (ie Peritel monitor), they should be 0.7V peak to peak, ± 50mV.

Set 'scope to 1V/division, AC, 10us/division

Probe L12 (HSL). This signal should always show 3V peak to peak, ± 50mV. The cycle time is Hsync (ie 64us for PAL, 63.55us for NTSC)

2.9 Extended audio test

Not completed yet

2.10 Miscellaneous digital probe points

The following list must always be checked when any major changes are made to the PCB, and can be very useful as a general system checkout.

Unit Under Test: Jaguar console PCB assembly APN 700026-xxx

or, Jaguar console Main assembly APN 700025-xxx

Equipment Required:

Either,

APN 700044 Assy, Jaguar functional test card, plus

APN 500403 Cable, Jaguar test card to RS232 terminal , plus

-- RS232 terminal

or,

APN 700050 Field test cartridge, plus

APN 500405 RS232 adaptor module, plus

-- RS232 terminal

Plus,

APN 500273 Jaguar AC adaptor (110V AC)

-- Oscilloscope, with probe with short (less than 2 inches)

ground lead

Test Conditions:

Temperature: 25 degrees C, +/- 4 degrees

Humidity: 25% to 50% relative humidity

Test bench should ideally be conductive, and set well away from any electromagnetic fields (such as TVs or monitors)

Procedure:

If using a jaguar test card, set DIP switch 7 to OFF. This will disable the automatic test mode

Turn the UUT on, and select from the RS232 terminal (Press keys marked in brackets):

[D] Diagnostics

[7] Object processor tests

[6] Colour bars

[ESC] Object processor tests

[ESC] Main menu

[8] Simultaneous tests

[1] Turn on 68000

[2] Turn on U13 (Tom GPU)

[3] Turn on U15 (Jerry DSP)

This will turn on a high resolution video image (24 bits per pixel) of colour bars, whilst three processors are simultaneously thrashing the system bus.

 

Probe procedure:

With a better than 100MHz oscilloscope, and a very short ground lead, the following digital test points can be probed.

Set oscilloscope to 1V/division AC, 100ns/division

Measure:

Signal Rise time

Signal Fall time

Steady High level

Steady Low level

Undershoot

Overshoot

At probe points:

RAS0 U34, pin 14 (ground at U34 pin 21, 35 or 40)

CAS0 U34, pin 28 (ground at U34 pin 21, 35 or 40)

OE0 U23, pin 27 (ground at U34 pin 21, 35 or 40)

OE1 U24, pin 27 (ground at U34 pin 21, 35 or 40)

OE2 U33, pin 27 (ground at U34 pin 21, 35 or 40)

WE0 U23, pin 12 (ground at U23 pin 21, 35 or 40)

WE1 U23, pin 13 (ground at U23 pin 21, 35 or 40)

WE2 U24, pin 12 (ground at U24 pin 21, 35 or 40)

WE3 U24, pin 13 (ground at U24 pin 21, 35 or 40)

WE4 U33, pin 12 (ground at U33 pin 21, 35 or 40)

WE5 U33, pin 13 (ground at U33 pin 21, 35 or 40)

WE6 U34, pin 12 (ground at U34 pin 21, 35 or 40)

WE7 U34, pin 12 (ground at U34 pin 21, 35 or 40)

DREQ U29, pin 6 (ground nearby U29)

FC1 U29, pin 29 (ground nearby U29)

DTACKL U29, pin 10 (ground nearby U29)

BGA U29, pin 12 (ground nearby U29)

XBRL U29, pin 13 (ground nearby U29)

BGL U29, pin 11 (ground nearby U29)

 

 

3.0 SPC Parameters

 

 

 

4.0 JTC DIP Switch settings and test cartridge configuration

The DIP switch is labled as switches 1 to 8. Switch 1 is in parallel with the select switch and must always be set OFF or OPEN. Switch 8 is unused.

In the following table:

0 = DIP switch ON or switch CLOSED

1 = DIP switch OFF or switch OPEN

x = Not applicable

S1 S2 S3 S4 S5 S6 S7 S8

=============================================

1 x x x x x 0 x Enable production tests at reset

1 1 x x x x x x Run selected tests once only

1 0 x x x x x x Repeat selected tests forever

1 x 0 x x x 0 x Run Full Unattended Test

1 x 1 x x x 0 x Run Full Attended Test

1 x x 0 x x x x Disable analog joystick test

1 x x x 0 x x x Disable analog audio tests

1 x x x x 0 x x Disable Simultaneous tests

=============================================

 

5.0 Multi-system TV setups

Almost any TV which supports PAL/NTSC, RF and SCART (aka "Peritel) can be used for testing the RF, composite and RGB video modes in Jaguar.

An RF cable and a Jaguar Peritel calbe should be connected between the UUT and the TV. The following switches can we inserted in-line with pins 8 and 16 of the Peritel cable:

Pin 8 Pin 16

RF mode OPEN OPEN

Composite mode CLOSED OPEN

RGB mode CLOSED CLOSED

 

"OPEN" means that this pin is unconnected

"CLOSED" means that this pin is connected to the UUT via the Peritel cable as normal.

 

 

 

GRUNDIG TV SETUP

Access TV programming menu

Press [i] and hold for 3 seconds, blue menu selection box appears.

Press [OK] immediately, main menu displays.

Select menu language

Press [n] until language menu is highlighted: D-F-I-E-P-GB

NL-SK-SF-USA

Press [OK], language selection highlighted in red.

Press [ o ] or [ p ] to select "USA" or the language of your choice.

Press [OK],

Setup program channel

Press [n] until STATION TABLE is highlighted.

Press [OK], channel program menu displayed, channel highlighted in red.

Press [q] or [n] to select program channel "01".

Press [AV] until a dot (period) appears between the letters P and R.

Press [ p ], move to next field.

Press [q] or [n] to select "S".

Press [ p ], move to next field.

Press [q] or [n] to select station channel "03".

Press [ p ], move to next field.

Press [q], [n], [ o ] or [ p ] to select the word "USA3".

Press [ p ], move to next field.

Press [q] or [n] to select "US 4.5 MHz - FM".

Press [OK], channel program menu displayed.

Press [ p ], move to next field.

Press [q] or [n] to adjust Fine Tuning (not required for NTSC).

Press [OK], next program channel is displayed.

Repeat above steps for each program channel listed below:

P.R CH NAME Standard FT

01 S03 USA3 US 4.5 MHz - FM 00

02 S04 USA4 US 4.5 MHz - FM 00

03 C36 PALI GB 6.0 MHz - FM (See calibration procedure)

04 C36 PALG CCIR 5.5 MHz - FM (See calibration procedure)

05 C04 PALB CCIR 5.5 MHz - FM 00

Press [i] to return to main menu.

Program special function

Press [n] until SPECIAL FUNCTION is highlighted.

Press [OK], special function menu displayed.

Press [q] or [n] to select PROG. menu.

Press [OK], program range highlighted in red.

Press [q] or [n] to select "1-9".

Press [OK], special function menu displayed.

Press [q] or [n] to select OSD menu.

Press [OK], OSD status highlighted in red.

Press [ o ] or [ p ] to select "ON".

Press [OK], special function menu displayed.

Press [q] or [n] to select CH-TAB. menu.

Press [OK], CH-TAB. selection highlighted in red.

NOTE: This function must be changed each time you switch between NTSC and PAL systems.

"USA" must be selected for NTSC systems.

"D" must be selected for PAL systems.

Press [OK], special function menu displayed.

Press [i] to return to main menu.

Turn of programming menu

Press [i] until menu disappears.

PAL-I / PAL-G channel fine tuning calibration procedure.

Equipment required: PAL-I or PAL-G Jaguar, Spectrum Analyzer

1. Connect modulator output to spectrum analyzer.

Adjust modulator output for 591.25MHz output.

Connect modulator output to TV.

Verify video quality is OK.

2. Connect modulator output to spectrum analyzer.

Adjust modulator output for 590.75MHz output.

Connect modulator output to TV.

Verify video quality is same as quality at 591.25MHz

3. Connect modulator output to spectrum analyzer.

Adjust modulator output for 591.75MHz output.

Connect modulator output to TV.

Verify video quality is same as quality at 591.25MHz

4. If video quality varies over the modulator range (590.75 to 591.75MHz), adjust TV channel fine tuning and repeat step 2 and 3 until video quality is consistent over full modulator range.