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DSP1D
INSPECTION
1. 2.
2-1.
Range of Application
These specifications apply to the DSP1D and DSP1D-EX.
Preparations
Conditions For details on the connection method, refer to the Test Program Specifications KES-92651. The function generator used for inspection must be the Sony Tektronix AFG310 or equivalent. When using the AFG310, the settings are as follows. FUNC :PULS MODE :CONT MODUL :OFF AMPL :1.800 OFFSET :0.900 Unless otherwise specified, the conditions are as follows. · The function generator BNC output is connected to WORD CLOCK IN (BNC). · Set WORD CLOCK IN to 75 . Loading the Firmware The firmware used must be the "CS1D Firmware" (managed with the already drawn CD-R assembly drawing (3JL-XY714A0) of the FMID System Software matching the version on the cover sheet. For details on the firmware writing method, refer to the Test Program Specifications KES-92651. Test Program For details on the starting method etc., refer to the Test Program Specifications KES-92651. Jigs The altered jigs and cable circuit diagram are shown from Page 47 of the Test Program Specifications KES-92651.
2-2.
2-3.
2-4.
3.
3-1.
Inspection
Inspection with Test Program · Inspect based on the Test Program Specifications KES-92651. Jitter Measurement · Connect the jitter meter to the WORD CLOCK OUT terminal. · Set the function generator to 48 kHz and 44.1 kHz, connect to WORD CLOCK IN, and measure the jitter with the jitter meter.
48 kHz 44.1 kHz Range of tolerance 6 ns max. 5 ns max.
3-2.
3-3.
Fan Operation Check · Check that the fan rotates while the power is on. Sound · For the connections and settings, refer to the Test Program Specifications. (1) Fs = 51.12 kHz (48 kHz + 6.5 %) · Set the function generator to 51.12 kHz. · Test listen for 30 seconds and verify that there is no noise. (2) Fs = 39.69 kHz (44.1 kHz -10 %) · Set the function generator to 39.69 kHz. · Test listen for 30 seconds and verify that there is no noise.
3-4.
4.
Factory Settings
· Rear panel. WORD CLOCK IN 75 : ON
42
DSP1D
TEST PROGRAM
A. Preparations for Inspection
This equipment requires firmware. When there are changes to the manufacturing processes and program for this equipment, it is necessary to write the new firmware to FlashRom from a PC. The software used and firmware used and their version numbers and concrete details of the writing method are shown below. · PM1DLOAD installation First, it is necessary to install in the PC the dedicated software for writing the firmware. For the installation method, refer to the CS1D Test Program Specifications.
Software used: Version used: PM1DLOAD within PM1D system software PM1D system software component files with the version number listed on the cover sheet. (Managed with the already drawn CD-R assembly drawing (3JL-XY714A0.)
· Writing the firmware The sheets that require firmware downloading are CIB (the 2CPU portion of E_TUC/E_HIF), EMB (the 2CPU portion of EMU/UIF), PDB, GDB, IDB (the 2CPU portion of DSP1D-EX), and EDB. Below is the firmware used. Detailed procedures are on the following pages.
Firmware used: DSP1D firmware in PM1D system software Version used: PM1D system software component files with the version number listed on the cover sheet. (Managed with the already drawn CD-R assembly drawing (3JL-XY714A0.)
* If PM1DLOAD has been installed according to the instructions in the CS1D Test Program Specifications, the version for the firmware above is taken care of and there is no need to worry about it.
Firmware name 1 2 3 4 5 6 7 8 9 EMU E_TCU E_HIF UIF PDB GDB IDB1 IDB2 EDB Sheet name EMB CIB EMB PDB GDB IDB (1st sheet) IDB (2nd sheet) EDB Connection number for writing firmware independently CN104 CN105 CN107 CN105 CN100 CN100 CN100 CN100 CN100
"Firmware" and "subject sheet and subject connector" correspondence table
· Method for writing firmware using the CS1D or DSP1D RS232C port * It is possible to write the CPU firmware from the PC via the RS232C port. This is the method normally used.
DSP1D AI8
OUTPUT A INTPUT 1 RS232C One or the other Only COM1 can be used. Serial connection D-sub 9-pin cross-cable
PC
(Windows 95 or later)
AO8
INPUT A OUTPUT 1
CS1D
Ether cable RS232C
1. Install and set PM1DLOAD with the method given in the CS1D Test Program Specifications. 2. Connect as in the figure above. Do not connect any other signal lines. However, to write firmware just to this equipment for a manufacturing process with this equipment, the only configuration required is DSP1D and the PC. 3. Write the firmware to all the units listed in the CS1D Test Program Specifications. You can check the status of the LEDs on each sheet. After the firmware has been written, check that the versions for all the units are the desired versions.
For PDB, GDB, IDB1, IDB2, and EDB MONI-4 flashing MONI-4 lit up LED other than MONI-4 flashing or lit up All LEDs out Program not yet written Program writing complete Program writing enabled Program writing complete Program writing inhibited Board defect possible LED flashing LED lit up LED off For CIB, EMB Program not yet written Program writing complete Ready for program writing Program writing complete Not ready for program writing CIB (E_TCU: LD101, E_HIF: LD102) EMB (EMU: LD101, UIF: LD102)
Corresponding LEDs
43
DSP1D
· Method for writing firmware directly to each sheet * When there is some kind of problem and the firmware can not be written with the method on the previous page, use the method below.
DSP1D
EMB(UIF) CIB(E_TCU) CIB(E_HIF) EMB(EMU) * For information on the DSP-CHECK board, refer to the LMY-SLOT inspection jig specifications.
PDB GDB IDB1 IDB2 EDB
Use the cable for straight connection between 5-pin PH connectors
To 5-pin PH connector on each board (CPU) (See Page 2.)
DSP-CHECK
(serial communications jig)
Serial connection D-sub 9-pin cross-cable
PC
(Windows 95 or later) Only COM1 can be used.
1. 2. 3. 4.
Install and set PM1DLOAD with the method given in the CS1D Test Program Specifications. Remove the DSP1D front panel. Remove all the CPU boards except the one on which you want to write PDB. (When writing to PDB, leave only that board.) Connect the D-sub 9-pin serial cables (cross) and DSP-CHECK board between the 5-pin connector for the target board and the PC. At this time, do not connect other signal lines.
· For PDB, GDB, IDB1, IDB2, and EDB 5. Short Pin 1 of the target CPU directly to ground. 6. With the connections still as in 4., switch on the power for the DSP1D. If the LED darkens momentarily, you can remove the short. 7. Check that the LED on the board is lit or flashing, indicating that the system is ready for writing. (See the previous page.) 8. After starting PM1DLOAD, select CardDirect with MODE SELECT, then press OK. 9. Press the Update button on the DSP1D. 10. Select the desired firmware, then press the Write button. (See Page 45.) 11. After writing ends, end PM1DLOAD. 12. Switch off DSP1D. Remove the PH connector, then switch the power for DSP1D on again and check that it starts up normally. · For EMB, CIB 5. Switch on the power for the DSP1D. 6. Check that the LED on the board is lit or flashing, indicating that the system is ready for writing. (See the previous page.) 7. After starting PM1DLOAD, select CardDirect with MODE SELECT, then press OK. 8. Press the Update button on the DSP1D. 9. Select the desired firmware, then press the Write button. (See Page 45.) 10. After writing ends, end PM1DLOAD. 11. Switch off DSP1D. Remove the PH connector, then switch the power for DSP1D on again and check that it starts up normally. · PM1D inspection PC software preparation Inspection with this device uses special PC software for inspection. The version of the software used is shown below.
Firmware used: PM1D inspection PC software in PM1D system software Version used: PM1D system software component files with the version number listed on the cover sheet. (Managed with the already drawn CD-R assembly drawing (3JL-XY714A0.) * The operating systems supported are Windows 95/98. * USB inspection is only supported in Windows 98. (Windows 98 Second Edition is not supported yet.)
For details of the preparation method and execution method, refer to the CS1D Test Program Specifications. Refer to version.txt in the same directory as the firmware on Page 2 and input the version character string exactly as given there. (For details on the input positions, refer to the "PM1D Inspection PC Software Summary" given later in this document.) · Installing the USB driver for inspection This equipment has a USB terminal. Therefore, it is necessary to install the USB driver for inspection in the inspection PC. The files used are included in the above PM1D inspection PC software, so install with the following procedure.
44
DSP1D
1. 2. 3. 4. 5. 6.
For the PM1D inspection PC software, start 16. DSP1D-JK6, LED2 Test. When the pop-up box for connecting the USB cable is displayed, connect the USB cable. After a short while, the system asks you to specify the driver. Specify the directory containing the PM1D inspection PC software. The installation proceeds as indicated by the OS. After installation is complete, press the OK button on the pop-up box that came up in 2. If inspection is OK, the installation has completed normally.
* The only operating system supported is Windows98. The USB driver can not be used with Windows 98 Second Edition. * The USB port is only activated in the state in 2. Beware. If you insert the USB cable in any other state, it is not correctly recognized by the PCS1De and the wrong driver is installed. * Once the driver has been installed, the above procedure is not necessary for USB tests. * This driver is only for inspection. It does not add the DSP1D USB function. * The CS1D inspection USB driver must be installed separately.
B. Inspection Method
The inspection items are given below. Except for 17., these items are inspected using the PM1D inspection PC software. For details on each item, see from Page 51 on.
No. 1 CIB Test Items 1-1. 1-2. 1-3. 2-1. 2-2. 4-1. 4-2. 4-3. 5-1. 5-2. 5-3. 6-1. 6-2. 6-3. 7-1. 7-2. 7-3. 8-1. 8-2. TCU HIF CIF EMU UIF CPU DSP6 DSP5 CPU DSP6 DSP5 CPU DSP6 DSP5 CPU DSP6 DSP5 CPU DSP6 No. 9 Connection test Items PDB GDB IDB1 IDB2 EDB INPUT 1 : 10-10. INPUT 10 11-1. TO CONSOLE 1 11-2. TO CONSOLE 2 12-1. OUTPUT 1 : 12-6. OUTPUT 6 13-1. TO CONSOLE 1 13-2. TO CONSOLE 2 9-1. 9-2. 9-3. 9-4. 9-5. 10-1.
2 3 4
EMB Test IFC Test PDB Test
10
JK1 (INPUT x) Test
11 12
5
GDB Test
JK4 (TO CONSOLE x) INPUT Test JK2 (OUTPUT x) Test
6
IDB1 Test
13 14 15 16 17
7
IDB2 Test
8
EDB Test
JK4(TO CONSOLE x) OUTPUT Test JK3 (CASCADE) Test JK5 Test JK6 , LED2 Test All-group sound inspection
(Inspects using DSP1D sound inspection data. See Page 49.)
C. Inspection Using PM1D Inspection PC Software
Except for the all-group sound test, the inspections use the PM1D inspection PC software to control the DSP1D and the inspection is carried out autonomously. The inspection configuration diagram is as follows.
Cascade ID change jig TO CONSOLE (output) ID change jig Fixed CASCADE OUT Fixed CASCADE IN USB SERIAL GPI OUT GPI IN TO CONSOLE 1-2 COMMUNICATION1 COMMUNICATION2 DSP1D Output ID change jig MIDI OUT MIDI IN OUTPUT 1-6 MIDI THRU REMOTE TC IN Changed INPUT 1-10 W.CLK I/O oscilloscope PC Windows 95 or later
D24 Jitter meter Func. Generator
Input ID change jig 68-pin port connections · Solid lines ····· Fixed · Dotted lines ··· Changed
45
DSP1D
For details on inspecting with this software, see from Page 51 on. Locations with instructions for changes have instructions for that inspection item in the PC software, so change the connections according to the instructions. (* Even if the system is the DSP1D not the DSP1D-EX, inspect with IDB2 inserted for the bus check.) D24 setting method For time code output, insert an MO disc (song data or the like) that can idle as long as possible. Also, switch On MMC Receive on the Utility menu and set TC Select to Serial IN on the Setup menu. W. CLK connection method In the 16 JK6 inspection, it is necessary to change the BNC cable. The connection method is as follows.
JK6-W.CLK inspection sub-item IN 48 kHz + 6 % IN 44.1kHz - 10 % Jitter 48 kHz Jitter 44.1 kHz IN/OUT Connection method W.CLK In ········ Connect the function generator and output the clocks. W.CLK Out ····· No need to connect W.CLK In ······· Connect the function generator and output the clocks. W.CLK Out ····· Connect the jitter meter and measure. Loopback connection between W.CLK Out and W.CLK In
68-pin port connection method table * Since the input and output functions are inspected separately for TO CONSOLE, there are two connection methods.
Inspection item 10. INPUT 1-10 11. TO CONSOLE (INPUT) 1-2 12. OUTPUT 1-6 13. TO CONSOLE (OUTPUT) 1-2 14. CASCADE IN/OUT Necessary jig ID change jig connection method From left side (CN103) From right side (CN102) To INPUT 1-10 To OUTPUT x To Console 1-2 To INPUT x To OUTPUT 1-6
Input ID change jig Output ID change jig Altered ID change jig just for TO CONSOLE (OUTPUT) Cascade ID change jig
Connected TO CONSOLE 1-2 and INPUT; no polarity. To CASCADE IN To CASCADE OUT
ID change jig DIP switch settings * There are three special 68-pin port ID change jigs (for INPUT, OUTPUT, and CASCADE) but these are the same jig with just the DIP switch settings changed. In other words, you can work with just one ID change inspection jig by changing the DIP switch settings appropriately. For information on the ID change jig, refer to the LMY-SLOT inspection jig specifications. SW 102 SW 101
ON ON
Input ID change jig
[INPUT 1-10] [TO CONSOLE (INPUT)] 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
SW 101 ON ON
SW 102
Output ID change jig
[OUTPUT 1-6] 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8
TO CONSOLE (OUTPUT) ID change jig
[TO CONSOLE (OUTPUT)]
The ID is not inspected at TO CONSOLE (OUTPUT), so the DIP switch settings do not matter. Connect the altered ID change jig just for TO CONSOLE (OUTPUT). (For details on the alteration, refer to the DSIP Overall Inspection Specifications.)
SW 101 ON ON SW 102
Cascade ID change jig
[for CASCADE IN check] 1 ON 2 3 4 5 6 7 8 ON 1 2 3 4 5 6 7 8
SW 101
SW 102
Cascade ID change jig
[for CASCADE OUT check]
46
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
DSP1D
PM1D inspection PC software summary Except for Item 17., the PM1D is inspected using PC inspection software. This inspection software is common for AI8/AO8/DSP1D/CS1D. For details on the basic operation methods, menu screen specifications, etc., refer to the CS1D Test Program Specifications. The DSP test menus are shown below. Before the inspection, the latest version of each piece of DSP1D software must be input. (This is necessary for the version check.) For the version character string to be input, refer to version.txt in the same directory as the DSP1D firmware. The following pages give details on each check item and how the PC software handles it.
DSP1D F/W Latest Version
P r e s s i n g t h i s b u t t o n a utomatically starts the check of the item to be checked. Auto Test Start CIB(TCU) xxxxxx PDB xxxxxx 4-3. 5-1. 5-2. 5-3. 6-1. CIB(HIF) xxxxxx GDB xxxxxx PDB GDB GDB GDB IDB1 EMB(EMU) xxxxxx IDB xxxxxx EMB(UIF) xxxxxx EDB xxxxxx Version character string input column Input the latest firmware version. When the version is checked, this character string and the version actually written in the firmware are compared. The value entered here is retained in memory.
Only items whose checkboxes are checked are automatically checked. ALL checks all the items. CLEAR removes all the checks.
1-1. 1-2. 1-3. 2-1. 2-2. 3.
CIB (TCU) CIB (HIF) CIB (CIF) EMB (EMU) EMB (UIF) IFC Test : CLR
OK OK OK OK OK OK
(DSP5) OK (CPU) OK (DSP6)OK (DSP5)OK (CPU) OK : :
ALL
The check items and check results are displayed. Pressing a check item button enables inspection of only that item.
D. All-Group Sound Inspection
After all the inspections were carried out with the PM1D inspection PC software, the sound inspection is carried out. After making the connections as in the diagram below, inspect with the procedure given from the next page on. Note that the altered ID change jigs A/B are separate from the dedicated TO CONSOLE (OUTPUT) altered ID change jig. (If multiple ID change jigs can be not be made available, substitute with the method given later in this document.)
DSP1D
INPUT1 INPUT2 INPUT3 INPUT4 INPUT5 INPUT6 INPUT7 INPUT8 INPUT9 INPUT10 Altered ID change jig A (1 in 2 out) Altered ID change jig A (1 in 2 out) Altered ID change jig A (1 in 2 out) Altered ID change jig A (1 in 2 out) Altered ID change jig B (1 in 1 out) Altered ID change jig B (1 in 1 out) * ID change jigs A/B are altered versions that set the IDs for input and output separately. The AI8 IDs are output to the input connection terminals. The AO8 IDs are output to the output connection terminals. * ID change jig A gathers two ID change jig Bs in 1 input; the outputs are distributed simply in parallel, so the 2-output side connections can be either even or the odd input terminals. * Connect 01V using an MIO card altered to output the console ID. (Refer to the DSP1D Overall Inspection Specifications.) OUTPUT1 OUTPUT2 OUTPUT3 BNC OUTPUT4 Final output OUTPUT5 OUTPUT6 CASCADE IN CASCADE OUT CONSOLE I/O Repeat RS232C RS232C
PC Windows 95 or later
OSC
DIRECT OUT
Function Generator
Altered MIO
01V
Inspected auditorily.
47
DSP1D
· Method using six altered ID change jigs (This is the method normally used.) 1. Connect according to the connection diagram. Supply a 48kHz clock from the function generator. 2. Execute the PM1D Manager for Windows from the PC. From Utility - LOAD/SAVE, execute the DSP1D sound and LOAD the inspection data. (For the version, installation method, usage method, etc., see below.)
Software used: Version used: PM1D Manager for Windows within PM1D system software PM1D system software component files with the version number listed on the cover sheet. (Managed with the already drawn CD-R assembly drawing (3JL-XY714A0.)
* The installation method is the same. Refer to install.txt in the PM1D system software. Data used: Version used: DSP1D sound inspection software within PM1D system software PM1D system software component files with the version number listed on the cover sheet. (Managed with the already drawn CD-R assembly drawing (3JL-XY714A0.)
* Start the installed PM1D Manager for Windows, then read with UTILITY - LOAD/SAVE.
3. 4. 5. 6. 7. 8. 9.
Set ENGINE A to W.CLOCK IN with SYS/W.CLOCK - WORD CLOCK. Set OSC OUT to 1AO8:1-1 with MON/CUE - OSCILLATOR, set ON. OSC to IN, then adjust the level. Recall SCENE 00.1: SOUND THRU1 with SCENE - MEMORY. Set the switch for the altered MIO connected to 01V to ST. Check the audio through 01V. Set the switch for the altered MIO connected to 01V to ST. Check the audio through 01V.
*1
{
· Method using only one altered ID change jig 1. Connect according to the connection diagram. Supply a 48kHz clock from the function generator. 2. Connect an altered ID change jig to INPUT 1 and 2 and OUTPUT 1. 3. Execute the PM1D Manager for Windows from the PC. From Utility - LOAD/SAVE, execute the DSP1D sound and LOAD the inspection data. (For the version, installation method, usage method, etc., see the previous page.) 4. Set ENGINE A to W.CLOCK IN with SYS/W.CLOCK - WORD CLOCK. 5. Set OSC OUT to 1AO8:1-1 with MON/CUE - OSCILLATOR, set ON. OSC to IN, then adjust the level. 6. Recall SCENE 00.1: SOUND THRU1 with SCENE - MEMORY. 7. Set the switch for the altered MIO to ST and check the audio through 01V. 8. Set the switch for the altered MIO to MON and check the audio through 01V. 9. Recall SCENE 00.2: SOUND THRU2 with SCENE - MEMORY. Check that the audio goes off. 10. Change the input side connections only to INPUT 3 and 4. 11. Repeat *1. 12. Recall SCENE 00.3: SOUND THRU3 with SCENE - MEMORY. Check that the audio goes off. 13. Change the input side connections only to INPUT 5 and 6. 14. Repeat *1. 15. Recall SCENE 00.4: SOUND THRU4 with SCENE - MEMORY. Check that the audio goes off. 16. Change the input side connections only to INPUT 7 and 8. 17. Repeat *1. 18. Recall SCENE 00.5: SOUND THRU5 with SCENE - MEMORY. Check that the audio goes off. 19. Change the input side connections only to INPUT 9 and 10. 20. Repeat *1. 21. Set OSC OUT to 2AO8:1-1. 22. Change the output side connection only to OUTPUT 2. (The INPUT remains 9 and 10 and the scene 00.5.) 23. Repeat *1. 24. Set OSC OUT to 3AO8:1-1. 25. Change the output side connection only to OUTPUT 3. 26. Repeat *1. 27. Set OSC OUT to 4AO8:1-1. 28. Change the output side connection only to OUTPUT 4. 29. Repeat *1. 30. Set OSC OUT to 5AO8:1-1. 31. Change the output side connection only to OUTPUT 5. 32. Repeat *1.
48
DSP1D
33. Set OSC OUT to 6AO8:1-1. 34. Change the output side connection only to OUTPUT 3. 35. Repeat *1.
1.
DSP1D-CIB Test
This test checks the DSP1D-CIB. It checks the following items. Those items for which there are figures display the results in binary. Detailed screen output specifications are given on the following pages. The details for 1-2. are omitted because they are the same as for 1-1. * For the DPM (dual port RAM) item, EM BUS <-> TC BUS R etc. is written. This indicates which of the DPM buses is inspected. For example, for EM BUS <-> TC BUS R, this indicates the check of the TC BUS side seen from the DPM (right side for the DPS BUS <-> CM BUS notation).
1-1. DSP1D-CIB (TCU-IC129) Test
This test checks around the CIB TCU. Check item
ID TCU [11h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · EM BUS<->TC BUS R
1-2. DSP1D-CIB (TCU-IC129) Test
This test checks around the CIB HIF. Check item
ID TCU [12h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · HI BUS<->EM BUS L
1-3. DSP1D-CIB (ETC)Test
This test makes other checks of the CIB. Check item
FPGA HIF [02h] DPM · EMU<->CONS L FIFO TC IC
1-1. DSP1D-CIB (TCU) Test
This test checks around the CIB TCU.
OK/NG display for the page as a whole Displayed when all the checks have been completed.
1-1. DSP1D-CIB (TCU-IC129) Test OK * ID TCU [11h] * RAM DataBus Sub-item AddressBus * Flash * Version Main item * DPM EM BUS <-> TC BUS R
OK OK 1-1. DSP1D-CIB (TCU-IC129) Test ID: RAM(IC133): Flash(IC132): Version: DPM: TCU[11h] OK OK OK OK OK
Received ID displayed as board name and hexadecimal
Corresponding pin number
NG example
Corresponding IC number
Stopped the moment an actual ID NG appears; stopped at the end of the page for any other NG.
1-1. DSP1D-CIB (TCU-IC129) Test * ID xxx [xxh] * RAM DataBus AddressBus * Flash * Version * DPM EM BUS <-> TC BUS R
NG NG 1-1. DSP1D-CIB (TCU-IC129) Test ID: xxx [xxh] NG RAM(IC133): NG NG DBus[38-35,32-29,16-13,10-7 pin] 11111111 11111111 ABus[18-21,24-27,42-44,1-5 pin] NG 1 11111111 1111111Flash(IC132): NG CheckSum = xxxx[xxxx] Version: NG Current = x.xx , Latest = x.xx DPM: NG NG EM BUS <-> TC BUS R:
OK OK OK
NG NG NG
Checked in order from top to bottom. Completed main items have marks next to them.
OK/NG display for individual items The NG is displayed the moment the item is found to be NG, even if the test is still underway. If there is no response from the firmware, "NO" is displayed.
If OK, sub-items are not displayed.
Abnormal port name
Now Checking ...
Previously read value. [ ] gives the correct value. 4-digit hexadecimal notation
DPM
Current status display
Displays all the detailed results so far. This display can be scrolled.
Gives the current version and the latest version
Terminal status display Delimited in units of 8 digits right justified in the order upper then lower. 0: Normal 1: Abnormal -: Ignored
(
SRAM Flash
OK: NG: OK: NG:
LED lit up LED flashes on (0.2 s) - Off (0.2 s) - On (0.2 s) - Off (0.1 s) LED lit up LED flashes on (0.1 s) - Off (0.1 s) - On (0.1 s) - Off (0.1 s)
)
49
DSP1D
1-3. DSP1D-CIB (ETC) Test
This test checks around the CIB ETC.
1-3. DSP1D-CIB (ETC) Test * FPGA * DPM EMU <-> CONS L * FIFO * TC IC OK
OK OK 1-3. DSP1D-CIB (ETC) Test FPGA(IC126): DPM: FIFO(IC118,119,122,123): TC IC(IC136): OK OK OK OK
NG example
1-3. DSP1D-CIB (ETC) Test * FPGA * DPM EMU <-> CONS L * FIFO * TC IC
NG NG 1-3. DSP1D-CIB (ETC) Test FPGA(IC126): DPM: EMU<->CONS L(IC116): FIFO(IC118,119,122,123): TC IC(IC136): NG NG NG NG NG
OK OK
NG NG
Now Checking ... TC IC
(
2.
SRAM Flash
OK: NG: OK: NG:
LED lit up LED flashes on (0.2 s) - Off (0.2 s) - On (0.2 s) - Off (0.1 s) LED lit up LED flashes on (0.1 s) - Off (0.1 s) - On (0.1 s) - Off (0.1 s)
)
2-2. DSP1D-EMB (UIF-IC127) Test
This test checks around the EMB HIF. Check item
ID UIF [13h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · UI BUS<->EM BUS L
DSP1D-EMB Test
This test checks the EMB. It checks the following items. Those items for which there are figures display the results in binary. Detailed screen output specifications are given on the following pages. The battery check item is only for 2-1. Here the voltage is checked and if it is within the correct range, OK is displayed. If it is NG, how far it deviates from the correct value is displayed.
2-1. DSP1D-EMB (EMU-IC114) Test
This test checks around the EMB EMU. Check item
ID EMU [10h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · EM BUS<->DPM BUS L · UI BUS<->EM BUS R · HI BUS<->EM BUS R · EM BUS<->TC BUS L Battery
3.
DSP1D-IFC (TCU) Test
This test checks the IFC board.
NG example
3. DSP1D-IFC Test
3. DSP1D-IFC Test DIR2(IC604,605,606): FPGA(IC503): OK OK 3. DSP1D-IFC Test DIR2(IC604,605,606): FPGA(IC503): NG NG
3. DSP1D-IFC Test * DIR2 * FPGA
OK
OK OK
* DIR2 * FPGA
NG NG
Now Checking ... FPGA
4.
DSP1D-PDB Test
This test checks the DSP1D-PDB. It checks the following items. Those items for which there are figures display the results in binary. Detailed screen output specifications are given on the following pages. DSP6 total count ···· 9 DSP5 total count ···· 11
50
DSP1D
4-1. DSP1D-PDB (CPU-IC101) Test
This test checks around the PDB CPU. Check item
ID PDB [14h] RAM · Data Bus 16bit(15-0) · Address Bus 16bit(16-1) Flash (Check Sum) Version DPM · Data Bus 16bit(15-0) · Address Bus 15bit(15-1)
4-2. DSP1D-PDB (DSP6) Test
This test checks around PDB DSP6. Check item
Chip Select DSP6 <-> CPU · Data Bus · Address Bus DSP6 <-> DRAM · Data Bus · Address Bus DSP6 -> DSP6 · Serial I/O 16bit(15-0) 7bit( 7-1) 32bit(31-0) 10bit( 9-0)
4-3. DSP1D-PDB
(DSP5) Test
This test checks around PDB DSP5. Check item
Chip Select DSP5 <-> CPU · Data Bus · Address Bus DSP6 -> DSP5 · Serial I/O DSP5 -> DSP6 · Serial I/O DPM · Serial I/O · ParallelI/O 16bit(15-0)
32bit(31-0)
4-1. DSP1D-PDB (CPU-IC101) Test
This test checks around the PDB CPU.
4-1. DSP1D-PDB (CPU-IC101) Test OK
OK * ID PDB [14h] * RAM OK DataBus AddressBus OK * Flash OK * Version * DPM DataBus 00000000 00000000 AddressBus 00000000 00000004-1. DSP1D-PDB (CPU-IC101) Test ID: RAM(IC107): Flash(IC114): Version: DPM: PDB [14h] OK OK OK OK OK
NG example
4-1. DSP1D-PDB (CPU-IC101) Test * ID xxx [xxh] NG * RAM NG DataBus AddressBus NG * Flash NG * Version * DPM DataBus 11111111 11111111 AddressBus 11111111 11111114-1. DSP1D-PDB (CPU-IC101) Test ID: xxx [xxh] NG RAM(IC107): NG NG DBus[xx-xx,xx-xx pin] 11111111 11111111 ABus[xx-xx,xx-xx pin] NG 1111 11111111 11111111 Flash(IC114): NG CheckSum = xxxx [xxxx] Version: NG Current = x.xx , Latest = x.xx DPM: NG
Now Checking ... Version
(
SRAM Flash
OK: NG: OK: NG:
LED lit up LED flashes on (0.2 s) - Off (0.2 s) - On (0.2 s) - Off (0.1 s) LED lit up LED flashes on (0.1 s) - Off (0.1 s) - On (0.1 s) - Off (0.1 s)
)
Stopped the moment an actual Chip Select or TxB NG appears; stopped at the end of the page for any other NG. Gives the abnormal DSP IC number.
4-2. DSP1D-PDB (DSP6) Test NG ChipSelect: ICxxx DSP6<->CPU: NG DBus[34-43,47-52 pin] NG ICxxx 11111111 11111111 ICxxx 11111111 11111111 ABus[25-31 pin] NG ICxxx 1111111DSP6<->DRAM: NG DBus[151-144,142-135,130-123,121-114pin] NG ICxxx - ICxxx 11111111 11111111 - ICxxx 11111111 11111111 ABus[163-154 pin] NG ICxxx - ICxxx, ICxxx 11 11111111 DSP6 -> DSP6: NG SI/SO NG ICxxx[SOx] - ICxxx[SIx]
4-2. DSP1D-PDB (DSP6) Test
This test checks around PDB DSP6.
The DSP check results are displayed for each DSP. The DSPs are displayed in order from the right of the ChipSelect signals on the circuit diagram. (Blank: Not yet checked; 0: Normal; 1: Abnormal; N: No response)
NG example
4-2. DSP1D-PDB (DSP6) Test OK * ChipSelect 0 00000000 * DSP6 <-> CPU 0 00000000 DataBus 0 00000000 AddressBus * DSP6 <-> DRAM 0 00000000 DataBus 0 00000000 AddressBus * DSP6 <-> DSP6 xxx/xxx Serial I/O
OK OK 4-2. DSP1D-PDB (DSP6) Test ChipSelect: DSP6<->CPU: DSP6<->DRAM: DSP6 -> DSP6: OK OK OK OK
4-2. DSP1D-PDB (DSP6) Test * ChipSelect 0 00100000 * DSP6 <-> CPU 0 00101000 DataBus 0 00001000 AddressBus * DSP6 <-> DRAM 0 00000100 DataBus 0 00000100 AddressBus * DSP6 <-> DSP6 xxx/xxx Serial I/O
NG NG
OK
NG
OK
NG
Display when a number of checks are complete and there have been a number of NGs
IC number display for both upper and lower
DSP6 -> DSP6 No. xxx
Now Checking ...
Displays from which SO to which SI is NG.
Displayed in binary in the order Upper: 16 bits, Lower: 16 bits The corresponding DRAM IC number is also displayed.
51
DSP1D
4-3. DSP1D-PDB (DSP5) Test
This test checks around PDB DSP6.
4-3. DSP1D-PDB (DSP5) Test * ChipSelect * DSP5 <-> CPU DataBus AddressBus * DSP6 -> DSP5 Serial I/O * DSP5 -> DSP6 Serial I/O * DSP5 -> DSP5 Serial I/O Parallel I/O 000 000000 000 000000 000 000000
OK
For the DSP5 address bus, only the upper bits can be checked.
NG example
4-3. DSP1D-PDB (DSP5) Test
4-3. DSP1D-PDB (DSP5) Test ChipSelect: OK NG DSP5<->CPU: DBus[xx-xx,xx-xx pin] NG ICxxx 11111111 11111111 ABus[xx pin] NG ICxxx 1------DSP6 -> DSP5: NG SI/SO NG ICxxx[SOxx] ICxxx[SIOxx] DSP5 -> DSP6: NG NG SI/SO ICxxx[SIOxx] ICxxx[SIxx] DSP5 -> DSP5: NG SI/SO NG ICxxx[SIOxx] ICxxx[SIOxx] PI/PO NG ICxxx ICxxx [xx-xx,xx-xx pin] 11111111 11111111 [xx-xx,xx-xx pin] 11111111 11111111
OK
OK OK 4-3. DSP1D-PDB (DSP5) Test ChipSelect: DSP5<->CPU: DSP6 -> DSP5: DSP5 -> DSP5: OK OK OK OK
xxx/xxx
OK
xxx/xxx
OK
xxx/xxx xxx/xxx
* ChipSelect 000 00000000 OK * DSP5 <-> CPU NG The pins are written as SIxx 000 00010000 DataBus and SOxx, but for DSP5, they 000 00000100 AddressBus are written as SIOxx. * DSP6 -> DSP5 NG xxx/xxx Serial I/O NG * DSP5 -> DSP6 xxx/xxx Serial I/O NG * DSP5 -> DSP5 xxx/xxx Serial I/O xxx/xxx Parallel I/O
Now Checking ... DSP5 -> DSP6 No. xxx
Basically, the same as up till here
Displays which pin numbers are NG between which DSPs. 16 are displayed at a time. The display is three digits, including the IC number display.
5.
DSP1D-GDB Test
This test checks the GDB. It checks the following items. The specifications are basically the same as for 4-1. through 4-3. DSP6 total count ···· 13 DSP5 total count ···· 7
5-1. DSP1D-GDB (CPU-IC100) Test
This test checks around the GDB CPU. Check item
ID GDB [15h] RAM · Data Bus 16bit(15-0) · Address Bus 16bit(16-1) Flash (Check Sum) Version DPM · Data Bus 16bit(15-0) · Address Bus 15bit(15-1)
5-2. DSP1D-GDB (DSP6) Test
This test checks around GDB DSP6. Check item
Chip Select DSP6 <-> CPU · Data Bus · Address Bus DSP6 <-> DRAM · Data Bus · Address Bus DSP6 -> DSP6 · Serial I/O 16bit(15-0) 7bit( 7-1) 32bit(31-0) 10bit( 9-0)
5-3. DSP1D-GDB (DSP5) Test
This test checks around GDB DSP5. Check item
Chip Select DSP5 <-> CPU · Data Bus · Address Bus DSP6 -> DSP5 · Serial I/O DSP5 -> DSP6 · Serial I/O DSP5 -> DSP5 · Serial I/O · Parallel I/O 16bit(15-0)
32bit(31-0)
6.
DSP1D-IDB1 Test
This test checks the IDB1. It checks the following items. The specifications are basically the same as for 4-1. through 4-3. DSP6 total count ···· 16 DSP5 total count ···· 8
6-1. DSP1D-IDB1 (CPU-IC100) Test
This test checks around the IDB1 CPU. Check item
ID IDB1 [16h] RAM · Data Bus 16bit(15-0) · Address Bus 16bit(16-1) Flash (Check Sum) Version DPM · Data Bus 16bit(15-0) · Address Bus 15bit(15-1)
6-2. DSP1D-IDB1 (DSP6) Test
This test checks around IDB1 DSP6. Check item
Chip Select DSP6 <-> CPU · Data Bus · Address Bus DSP6 <-> DRAM · Data Bus · Address Bus DSP6 -> DSP6 · Serial I/O 16bit(15-0) 7bit( 7-1) 32bit(31-0) 10bit( 9-0)
6-3. DSP1D-IDB1 (DSP5) Test
This test checks around IDB1 DSP5. Check item
Chip Select DSP5 <-> CPU · Data Bus · Address Bus DSP6 -> DSP5 · Serial I/O DSP5 -> DSP5 · Serial I/O 16bit(15-0)
52
DSP1D
7.
DSP1D-IDB2 Test
This test checks the IDB2. It checks the following items. The specifications are basically the same as for 4-1. through 4-3. DSP6 total count ···· 16 DSP5 total count ···· 8
7-1. DSP1D-IDB2 (CPU-IC100) Test
This test checks around the IDB2 CPU. Check item
ID IDB2 [16h] RAM · Data Bus 16bit(15-0) · Address Bus 16bit(16-1) Flash (Check Sum) Version DPM · Data Bus 16bit(15-0) · Address Bus 15bit(15-1)
7-2. DSP1D-IDB2 (DSP6) Test
This test checks around IDB2 DSP6. Check item
Chip Select DSP6 <-> CPU · Data Bus · Address Bus DSP6 <-> DRAM · Data Bus · Address Bus DSP6 -> DSP6 · Serial I/O 16bit(15-0) 7bit( 7-1) 32bit(31-0) 10bit( 9-0)
7-3. DSP1D-IDB2 (DSP5) Test
This test checks around IDB2 DSP5. Check item
Chip Select DSP5 <-> CPU · Data Bus · Address Bus DSP6 -> DSP5 · Serial I/O DSP5 -> DSP5 · Serial I/O 16bit(15-0)
8.
DSP1D-EDB Test
This test checks the EDB. It checks the following items. The specifications are basically the same as for 4-1. through 4-2. DSP6 total count ···· 12
2-1. DSP1D-EMB (EMU-IC114) Test
This test checks around the EMB EMU. Check item
ID EMU [10h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · EM BUS<->DPM BUS L · UI BUS<->EM BUS R · HI BUS<->EM BUS R · EM BUS<->TC BUS L Battery
2-2. DSP1D-EMB (UIF-IC127) Test
This test checks around the EMB HIF. Check item
ID UIF [13h] RAM · Data Bus 16bit(15-0) · Address Bus 20bit(19-0) Flash (Check Sum) Version DPM · UI BUS<->EM BUS L
9.
DSP1D Connection Test
This test checks the connections among the PDB, GDB, IDB1, IDB2, and EDB. It checks the following items. Detailed screen output specifications are given on the following pages. * There are duplicate checks, but for checking just specific boards, these checks are not omitted.
9-1. DSP1D-Connection (PDB) Test
Checks the connections between the PDB and the other boards. Check item
PDB -> IDB1 PDB -> IDB2 PDB -> GDB PDB -> EDB IDB1 -> PDB IDB2 -> PDB GDB -> PDB EDB -> PDB
9-2. DSP1D-Connection (GDB) Test
Checks the connections between the GDB and the other boards. Check item
GDB -> PDB IDB1 -> GDB IDB2 -> GDB PDB -> GDB EDB -> GDB
9-3. DSP1D-Connection (IDB1) Test
Checks the connections between the IDB1 and the other boards. Check item
IDB1 -> GDB IDB1 -> PDB IDB1 -> IDB2 PDB->IDB1
9-4. DSP1D-Connection (IDB2) Test
Checks the connections between the IDB2 and the other boards. Check item
IDB2 -> GDB IDB2 -> PDB IDB1 -> IDB2 PDB->IDB2
9-5. DSP1D-Connection (EDB) Test
Checks the connections between the EDB and the other boards. Check item
EDB -> GDB EDB -> PDB PDB -> EDB
53
DSP1D
9-1. DSP1D-Connection (PDB) Test
Checks the connections between the PDB and the other boards.
9-1. DSP1D-Connection (PDB) Test OK * * * * * * * * PDB PDB PDB PDB IDB1 IDB2 GDB EDB -> -> -> -> -> -> -> -> IDB1 IDB2 GDB EDB PDB PDB PDB PDB xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx
OK OK OK OK OK OK OK OK 9-1. DSP1D-Connection (PDB) Test PDB->IDB1: PDB->IDB2: PDB->GDB: PDB->EDB: IDB1->PDB: IDB2->PDB: GDB->PDB: EDB->PDB: OK OK OK OK OK OK OK OK
Displays which pin numbers are NG between which ICs
NG example
9-1. DSP1D-Connection (PDB) Test * * * * * * * * PDB PDB PDB PDB IDB1 IDB2 GDB EDB -> -> -> -> -> -> -> -> IDB1 IDB2 GDB EDB PDB PDB PDB PDB xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx xxx/xxx
NG NG NG NG NG NG NG NG 9-1. DSP1D-Connection (PDB) Test PDB->IDB1: ICxxx[xxxxx] ICxxx[xxxxx] PDB->IDB2: ICxxx[xxxxx] PDB->GDB: ICxxx[xxxxx] PDB->EDB: ICxxx[xxxxx] IDB1->PDB: ICxxx[xxxxx] IDB2->PDB: ICxxx[xxxxx] GDB->PDB: ICxxx[xxxxx] EDB->PDB: ICxxx[xxxxx] NG ICxxx[xxxxx] ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx] NG ICxxx[xxxxx]
Now Checking ... EDB -> PDB
Basically, the same as up till here
10. DSP1D-JK1 (INPUT x) TEST
This test checks the JK1 board with loopback connections. These items are repeated for just the specified range of Inputs 1-10. The input ID change jig is used for Items 10 and 11. NG example
10-1. DSP1D-JK1 (INPUT x) Test OK DIR2 SI RQ AK W.CLK CONTROL ID In Out * MSB/LSB * 2CH/4CH * * * * * * *
OK OK OK OK OK OK OK 10-1. selected from the pull-down DSP1D-JK1 (INPUT 1) Test
The Output port used for the input check is list.
1 OK 1 OK OK 10 OK OK OK OK OK OK
10-1. DSP1D-JK1 (INPUT x) Test DIR2 SI RQ AK W.CLK CONTROL ID In Out * MSB/LSB * 2CH/4CH * * * * * * *
NG NG NG NG NG NG NG 10-1. DSP1D-JK1 (INPUT 1) Test DIR2(IC112): SI: RQ: AK: W.CLK: CONTROL: ID: In Out MSB/LSB: 2CH/4CH: NG NG NG NG NG NG NG NG NG NG NG
Select [OUTPUTPort]. DIR2(IC112): Select [INPUTPort] from SI: RQ: Select [INPUTPort] to AK: W.CLK: CONTROL: OK ID: MSB/LSB: 2CH/4CH:
ID change jig DIP switch settings
OK OK
Fixed to the port selected for the output side; the input connections are changed in order. When changing to the next port, a pop-up box like the one below is displayed.
Connect [OUTPUT 1] to[INPUT 1]. OK
NG NG
Now Checking ... 2CH/4CH
11. DSP1D-JK4 (TO CONSOLE x) Input Test
This test checks the JK4 port input direction communications. These items are repeated for the specified range of TO CONSOLE 1-2.
NG example
11-1.DSP1D-JK4(TO CONSOLE 1) INPUT OK DIR2 SI W.CLK ID In Out * MSB/LSB * * * *
OK OK OK OK 11-1. DSP1D-JK4 (TO CONSOLE 1) INPUT Test DIR2(IC112): OK The Output port used for the TO CONSOLE SI: OK check is selected from the pull-down list. W.CLK: OK (The port selected in Test 10 is displayed as ID: OK the default. Normally, the input cable that has MSB/LSB: OK been connected and reconnected sequentially in 10. can just be reconnected to TO CONSOLE. Select [OUTPUT Port]. Select [TO CONSOLEPort] from Select [TO CONSOLEPort] to 1 1 2
11-1.DSP1D-JK4(TO CONSOLE 1) INPUT OK DIR2 SI W.CLK ID In Out * MSB/LSB * * * *
NG NG NG NG 11-1. DSP1D-JK4 (TO CONSOLE 1) INPUT Test DIR2(IC112): SI: W.CLK: ID: In Out MSB/LSB: NG NG NG NG NG NG NG
OK
NG
ID change jig DIP switch settings
OK Now Checking ...
Fixed to the port selected for the output side; the TO CONSOLE connections are changed in order. When changing to the next port, a pop-up box like the one below is displayed.
Connect [OUTPUT 1] to [TO CONSOLE 1] OK
MSB/LSB
54
DSP1D
12. DSP1D-JK2 (OUTPUT x) Test
This test checks the JK2 port with loopback connections. These items are repeated only for INPUT1-10. The output ID change jig is used for Item 12. NG example
12-1. DSP1D-JK2 (OUTPUT 1) Test * * * * * * SO RQ AK W.CLK CONTROL ID In Out OK
OK OK OK OK OK OK
The INPUT port used for the output check is
12-1. selected from the pull-down list. DSP1D-JK2 (OUTPUT 1) Test SO: RQ: AK: W.CLK: ID: In Out Select [INPUTPort]. Select [OUTPUT Port] from Select [OUTPUT Port] to 1 OK 1 OK OK 10 OK OK
12-1. DSP1D-JK2 (OUTPUT 1) Test * * * * * * SO RQ AK W.CLK CONTROL ID In Out
OK
NG NG NG NG NG NG 12-1. DSP1D-JK2 (OUTPUT 1) Test SO: RQ: AK: W.CLK: ID: In Out NG NG NG NG NG NG NG
OK
OK OK
ID change jig DIP switch settings
Fixed to the port selected for the input side; the output connections are changed in order. When changing to the next port, a pop-up box like the one below is displayed.
Connect [OUTPUT 1] to[INPUT 1]. OK Now Checking ... ID Out
13. DSP1D-JK4 (TO CONSOLE x) Output Test
This test checks the JK4 port output direction communications. For this item, use either the altered TO CONSOLE (OUTPUT) ID change jig or the altered special cable. NG example
13-1.DSP1D-JK4(TO CONSOLE 1)OUTPUT OK * SO
OK 13-1. DSP1D-JK4 (TO CONSOLE 1) OUTPUT Test SO: OK The Input port used for the TO CONSOLE check is selected from the pull-down list. (The port selected in Test 12 is displayed as the default. Normally, the input cable that has been connected and reconnected sequentially in 12. can just be reconnected to TO CONSOLE.) Select [INPUT Port]. Select [TO CONSOLEPort] from 1 1 2
13-1.DSP1D-JK4(TO CONSOLE 1)OUTPUT * SO
NG 13-1. DSP1D-JK4 (TO CONSOLE 1) OUTPUT Test SO: NG
For this item, the DIP switch setting does not matter, so it can be ignored
Select [TO CONSOLEPort] to
OK Now Checking ...
Fixed to the port selected for the input side; the TO CONSOLE connections are changed in order. When changing to the next port, a pop-up box like the one below is displayed.
Connect [INPUT 1] to [TO CONSOLE 1]. OK
MSB/LSB
14. DSP1D-JK3 (CASCADE) Test
This test checks the JK3 port with loopback connections. For this test, use either the Cascade ID change jig.
NG example
14. DSP1D-JK3 (CASCADE) Test DIR2 SI/SO W.CLK CONTROL ID (CASCADE IN) In Out * ID (CASCADE OUT) In Out * MSB/LSB * * * * * OK
OK OK OK OK OK 14. DSP1D-JK3 (CASCADE) Test
14. DSP1D-JK3 (CASCADE) Test DIR2 SI/SO DIR2(IC110,126): OK A pop-up box is displayed asking you to change SI/SO: OK the connections and DIP switch settings. W.CLK W.CLK: OK CONTROL Connect [INPUT 1] to [TO CONSOLE 1]. CONTROL: OK ID (CASCADE IN) OK ID(CASCADE IN): OK ID(CASCADE OUT): In OK MSB/LSB: OK Out * ID (CASCADE OUT) The pop-up box below is displayed DIP just before the ID (CASCADE out), ID change jig In switch settings Out so change the ID change jig DIP * MSB/LSB switch settings. * * * * *
Change DipSW. NG NG NG NG NG 14. DSP1D-JK3 (CASCADE) Test DIR2(IC110,126): SI/SO: W.CLK: CONTROL: ID(CASCADE IN): In Out ID(CASCADE OUT): In Out MSB/LSB: NG NG NG NG NG NG NG NG NG NG NG
OK
NG
OK
NG
ID change jig DIP switch settings
Now Checking ... OK MSB/LSB
55
DSP1D
15. DSP1D-JK5 Test
This test checks the JK5 port.
15. DSP1D-JK5 Test * * * * * REMOTE (CROSS) GPI TC REMOTE (STRAIGHT) ETHER CH1 CH2 OK
OK OK OK OK OK 15. DSP1D-JK5 Test REMOTE(CROSS) displayed asking you OK stop D24. A pop-up box is to GPI: this point, normally D24 should already be OK At TC: OK stopped and you can just verify this. REMOTE(STRAIGHT) OK OK ETHER:Please stop [D24] and connect it by [Cross...]. CH1: OK OK CH2: OK
NG example
15. DSP1D-JK5 Test * * * * * REMOTE (CROSS) GPI TC REMOTE (STRAIGHT) ETHER CH1 CH2
NG NG NG NG NG 15. DSP1D-JK5 Test REMOTE(CROSS) GPI: TC: REMOTE(STRAIGHT) ETHER: CH1: CH2: NG NG NG NG NG NG NG
Instructions appear to replace the serial cross cable with a straight cable, so change the cable as instructed, then press OK.
Replace [Cross] serial cable with [Straight] one. Now Checking ... OK ETHER
· Normal behavior for each inspection item
REMOTE (CROSS) TC REMOTE (STRAIGHT) D24 playback (TC send) TC check from D24 D24 stop
16. DSP1D-JK6 Test
This test checks the JK6 port and LED2. For details on how to change the connections, see Page 7.
16.DSP1D-JK6,LED2 Test MIDI RS232C USB W.CLK 75ohm SW W.CLK In 48 kHz + 6% In 44.1kHz - 10% Jitter 48 kHz Jitter 44.1kHz In/Out * LED2 * * * * * OK
OK OK OK OK OK 16. DSP1D-JK6,LED2 Test MIDI RS232C: USB: W.CLK 75ohm SW: W.CLK: LED2: OK OK OK OK OK OK
A pop-up box appears verifying that D24 has gone into playback status through MIDI THRU. The inspector judges OK/NG, but since the MIDI OUT/IN loopback check is carried out at the same time, if a problem is found in the loopback check, even though the inspector presses OK, NG appears.
Please check [D24]. OK NG
When the pop-up box asking you to make the connections for the USB check appears, connect the USB cable. (If you connect the cable before requested, the software is not loaded properly.) (The USB check driver must be installed before hand.)
Connect USBport[HostPCtoDSP1D].Push OK button.
OK
OK
For the 75 switch item, the pop-up box below is displayed, so send any clock with the function generator and judge visually with the oscilloscope.
Please check [WordClock 75ohm SW]. OK NG
Normal oscilloscope behavior for 75 switch
ON
OFF
The pop-up box below is displayed for items requiring connection changes. Press OK to start the check.
Please setting for [48kHz + 6% W.CLK]. OK
After the check is started with the above pop-up box, a pop-up box is displayed for the inspector to enter the results of their visual check, OK or NG.
Please check [Jitter (48kHz)]. OK NG
A pop-up box is displayed asking you to stop D24. If the inspections have all been normal up to this point, D24 should already be stopped, but if it has not been stopped, press the Stop button.
The pop-up box below is displayed for the DSP1D front LED check. Judge the LEDs visually. The six LEDs should light up in order so when you have verified that they do so, press OK.
Please check [LED]. OK NG
56
DSP1D
ERROR MESSAGES
· If both ENGINE ID A and B indicators are flash-ing: There is a malfunction in the internal board (PDB, GDB, IDB1/2, EDB, EMB, or CIB). Or the necessary board does not exist. · If either ENGINE ID A or B indicator is flashing: During the Mirror mode operation, the ENGINE ID indicator for the unused DSP1D/DSP1D-EX flashes, indicating that the unit is in standby mode. If Indicator A is flashing, unit A is in standby mode. If Indicator B is flashing, unit B is in standby mode. · If the CONTROL I/O 1 indicator is flashing: Communication between the CS1D control surface and the DSP1D is not established.The CONSOLE 1, 2 IN OUT jacks or the PC CON-TROL port is not connected correctly. · If the INPUT CONFIGURATION 48CH is flashing: The signal is not locking to the word clock.
57
DSP1D
BLOCK DIAGRAM
[POWER] [ON/OFF]
LED2
CIB
EMB
EDB
IDB
IDB
CN901 CN900
GDB
CN950 CN952
PDB
P.66
PSB2
CN200
FOR DSP1D-EX
P.67
CN101
P.68
P.69
P.69
P.69
P.70
P.71
CN951,953, 954,955, 956,957
CN103 CN703 CN803
CN102 CN702
CN101 CN701
CN103 CN603
CN102 CN602
CN101 CN601
CN625 CN651 CN503 CN502
CN650 CN501
CN3
CN2
CN1 CN401
CN3
CN2
CN1 CN301
CN904 CN903 CN203 CN202
CN902 CN201
CN902 CN901 CN103 CN102
CN900 CN101
CN403 CN402
CN303 CN302
CN10 CN3~7 CN104,204,304, 404,504,604 CN104,304,504, 604,801,802
P.66
MB11
CN801,802, 805~808
POWER UNIT
CN105,305,505, 605,803,804
IFC1
P.59
CN4~7,9
CN105,305, 405,505,605
CN304 CN100
CN303 CN100
CN302 CN102
CN301 CN102
CN203 CN102
CN201 CN102
CN104 CN102
CN104 CN102
CN103 CN102
CN102 CN102
CN101 CN102
CN100 CN102
P.65
P.64
P.63
P.62
P.61
P.61
P.61
P.60
P.60
P.60
P.60
P.60
FAN
FAN
JK6
[WORD CLOCK] [MIDI] [IN] [75 ] [ON] [IN] [OFF] [OUT] [OUT] [THRU] [PC CONTROL] [RS-232-C] [USB]
JK5
[CONTROL I/O] [REMOTE] [CONSOLE] [RS-422] [GPI] [1] [IN] [OUT] [TIME CODE IN] [2] [IN] [OUT]
JK4
[2] [1] [OUT] [CONSOLE I/O]
JK3
[IN] [6] [CASCADE]
JK2
[5] [4]
JK2
[3] [2] [OUTPUT]
JK2
[1] [10]
JK1
[9] [8]
JK1
[7] [6]
JK1
[5] [4] [INPUT]
JK1
[3] [2]
JK1
[1]
[DIGITAL I/O]
WHOLE
58
KEC-92538-2
IC701~706, IC717 20pin
BUFFER & TRANSCEIVER
59
DSP1D
JK1 P.60
CONNECTOR
INPUT 1,2,3,4,5,6,7,8,9,10 AUDIO OUTPUT 1,2,3,4,5,6 AUDIO CASCADE IN,OUT AUDIO CONSOLE I/O 1,2 AUDIO
INPUT 1 WC INPUT 2 WC INPUT 1 AUDIO INPUT 2 AUDIO INPUT 1 CONTROL I/O INPUT 2 CONTROL I/O
CONNECTOR BUFFER
PDB P.71
256FS,etc.
IC608, IC609, IC610 44pin 44pin
256FS,etc.
JK1 P.60
CONNECTOR
INPUT 3 WC INPUT 4 WC INPUT 3 AUDIO INPUT 4 AUDIO INPUT 3 CONTROL I/O INPUT 4 CONTROL I/O
DIR2 x 2
IC605,IC606
DIR2
15 36 12 15 IC707~716 20pin
(CLOCK GENERATOR)
(VALID DETECTOR)
36 12
JK1 P.60
CONNECTOR
IC604
INPUT 5 WC INPUT 6 WC INPUT 5 AUDIO INPUT 6 AUDIO INPUT 5 CONTROL I/O INPUT 6 CONTROL I/O
JK1 P.60
CONNECTOR
LOCK XI WC
97 214 99 100 110 109 103,105
LOCK XI WC
INPUT 7 WC INPUT 8 WC INPUT 7 AUDIO INPUT 8 AUDIO INPUT 7 CONTROL I/O INPUT 8 CONTROL I/O
3
XTAL FPGA
IC503 240pin 215 3
(CLOCK SYSTEM,I/O CONTROL)
(24.576Mz)
JK1 P.60
CONNECTOR
WC(X21) LOCK CASCADE CONTROL I/O INPUT,OUTPUT CONTROL I/O
256FS,etc. INPUT 9 WC INPUT 10 WC INPUT 9 AUDIO INPUT 10 AUDIO INPUT 9 CONTROL I/O INPUT 10 CONTROL I/O JK
XTAL
171,173
(22.5792Mz) IFC INPUT,OUTPUT CONTROL I/O CASCADE CONTROL I/O CASCADE CONTROL I/O INPUT,OUTPUT CONTROL I/O IFC CONNECTOR
JK2 P.61
CONNECTOR
BUFFER & TRANSCEIVER
IFC
OUTPUT 1 WC OUTPUT 2 WC OUTPUT 1 AUDIO OUTPUT 2 AUDIO OUTPUT 1 CONTROL I/O OUTPUT 2 CONTROL I/O JK
JK2 P.61
CONNECTOR
OUTPUT 3 WC OUTPUT 4 WC OUTPUT 3 AUDIO OUTPUT 4 AUDIO OUTPUT 3 CONTROL I/O OUTPUT 4 CONTROL I/O
JK2 P.61
CONNECTOR
OUTPUT 5 WC OUTPUT 6 WC OUTPUT 5 AUDIO OUTPUT 6 AUDIO OUTPUT 5 CONTROL I/O OUTPUT 6 CONTROL I/O
JK3 P.62
CONNECTOR
CASCADE IN WC CASCADE OUT WC CASCADE IN AUDIO CASCADE OUT AUDIO CASCADE IN CONTROL I/O CASCADE OUT CONTROL I/O
JK4 P.63
CONNECTOR
256FS,etc. CONSOLE I/O 1 WC CONSOLE I/O 2 WC CONSOLE I/O 1 AUDIO OUT CONSOLE I/O 2 AUDIO OUT CONSOLE I/O 1 AUDIO IN CONSOLE I/O 2 AUDIO IN
MB11 P.66
TIME CODE CONTROL I/O REMOTE(RS-422) GPI
TIME CODE CONTROL I/O REMOTE(RS-422) GPI FS LOCK WC MIDI IN,OUT PC CONTROL(RS-232-C) USB MIDI IN,OUT PC CONTROL(RS-232-C) USB
CONNECTOR CONNECTOR
JK5 P.64 JK6 P.65
IFC1
KEC-92538-3
KEC-92538-4
ATSC X2
(PHASE ADJUSTER & FORMAT CONVERTER)
IC119, IC120 80pin IC113~118 16pin
IFC1 P.59
CONNECTOR
INPUT2 CONTROL I/O INPUT1 CONTROL I/O
INPUT2 AUDIO INPUT2 AUDIO
78
INPUT1 AUDIO
INPUT2 WC
INPUT1 WC
IC122~124, IC129
MUTE
IC100
256FS ,etc.
256FS,etc.
20pin
JK JK
BUFFER & TRANSCEIVER
JK
INPUT1 AUDIO
256FS,etc.
256FS,etc.
12 11
MUTE I/O PORT
INPUT2 CONTROL I/O
MUTE
I/O PORT
INPUT1 CONTROL I/O
9
LOCK
ATSC X2
78
MUTE
IC100
8
LOCK
DIR2
(256FS,etc. GENERATOR, WC DETECTOR) IC121 44pin
(PHASE ADJUSTER & FORMAT CONVERTER)
IC109, IC110 80pin
256FS ,etc.
DIR2
(256FS,etc. GENERATOR, WC DETECTOR) IC112 44pin
ID
ID
INPUT2 WC
INPUT1 WC
INPUT2 AUDIO
INPUT1 AUDIO
RECEIVER & BUFFER
INPUT2 WC
IC127,128,130~133 20pin
IC103~108 16pin
RECEIVER & BUFFER
INPUT1 WC
IC127,128,130~133 20pin
INPUT2 CONTROL I/O
INPUT1 CONTROL I/O
INPUT2 AUDIO
INPUT1 AUDIO
FS
FS
ID
ID
CONNECTOR(DSUB 68P) [2] ([4],[6],[8],[10])
CONNECTOR(DSUB 68P) [1] ([3],[5],[7],[9]) [INPUT]
JK1
[INPUT]
DSP1D
60
61
DSP1D
IFC1 P.59
CONNECTOR
OUTPUT2 CONTROL I/O OUTPUT1 CONTROL I/O OUTPUT2 AUDIO
IC122~124 20pin
OUTPUT1 AUDIO
OUTPUT2 WC
OUTPUT1 WC
IC125 16pin
256FS,etc.
IC127~134 20pin
JK JK
BUFFER & TRANSCEIVER
JK
ATSC X2
FORMAT CONVERTER
IC113, IC114 80pin 15
IC115, IC1117~120 16pin
OUTPUT2 AUDIO OUTPUT2 AUDIO OUTPUT2 AUDIO
OUTPUT1 AUDIO
MUTE
DRIVER & BUFFER
OUTPUT2 WC
256FS,etc.
I/O PORT
MUTE
256FS,etc.
I/O PORT
OUTPUT2 CONTROL I/O
OUTPUT1 CONTROL I/O
LOCK
ATSC X2
FORMAT CONVERTER
IC100, IC101 80pin
LOCK
15
OUTPUT2 WC
DIR2
(WC DETECTOR)
IC121 44pin
DIR2
(WC DETECTOR)
IC112 44pin
OUTPUT1 WC
ID
ID
OUTPUT1 AUDIO
IC130 20pin
IC116 16pin
IC103, IC105~108 16pin
DRIVER & BUFFER
OUTPUT1 WC
IC131 20pin
IC104 16pin
OUTPUT2 CONTROL I/O
OUTPUT1 CONTROL I/O
OUTPUT1 AUDIO
FS
FS
ID
ID
CONNECTOR(D-SUB Half Pitch 68P)
CONNECTOR(D-SUB Half Pitch 68P) [1]([3],[5]) [OUTPUT]
KEC-92538-5
[2]([4],[6]) [OUTPUT]
JK2
KEC-92538-6
15
IFC1 P.59
CONNECTOR
CASCADE IN CONTROL I/O CASCADE IN AUDIO CASCADE OUT WC
CASCADE IN WC
CASCADE OUT CONTROL I/O
IC127~129, IC131~138 20pin
256FS,etc.
CASCADE OUT AUDIO
JK JK
BUFFER & TRANSCEIVER
JK
CASCADE OUT AUDIO
ATSC X4
78 (PHASE ADJUSTER & FORMAT CONVERTER) IC111~IC114 80pin
CASCADE IN AUDIO CASCADE IN AUDIO CASCADE IN AUDIO
10
256FS ,etc.
RECEIVER & BUFFER
CASCADE IN WC
256FS,etc.
8
CASCADE OUT CONTROL I/O
MUTE
I/O PORT
IC104~106 16pin
INV
MUTE
CASCADE IN CONTROL I/O
I/O PORT
3
128FS
DFF
IC117~119 20pin
MUTE
9 IC108
LOCK
LOCK
CASCADE OUT WC
CASCADE IN WC
DIR2
(256FS,etc. GENERATOR, WC DETECTOR)
IC110 44pin
DIR2
(WC DETECTOR) IC126 44pin
IC101, 102, 104~107 16pin
ID
ID
CASCADE OUT AUDIO
IC120~125 16pin
FS
DRIVER & BUFFER
CASCADE OUT CONTROL I/O CASCADE OUT WC
CASCADE OUT AUDIO
CASCADE IN CONTROL I/O
FS
FS
ID
ID
CONNECTOR(D-SUB Half Pitch 68P) [IN] [CASCADE]
CONNECTOR(D-SUB Half Pitch 68P) [OUT] [CASCADE]
JK3
DSP1D
62
DSP1D
MUTE
IC110 80pin
(ATSC)
CONSOLE I/O 1 OUT AUDIO
FORMAT CONVERTER
CONSOLE I/O 1 OUT AUDIO
CONSOLE I/O 1 OUT AUDIO
CONSOLE I/O 1 OUT AUDIO
X1
ID
ID
RECEIVER & BUFFER
JK
JK
CONNECTOR(D-SUB Half Pitch 68P) [1]
CONSOLE I/O 1 WC
IC103~108 16pin
I/O PORT
CONSOLE I/O 1 WC
BUFFER & TRANSCEIVER
CONSOLE I/O 1 WC
IFC1 P.59
CONNECTOR
MUTE
LOCK
(256FS,etc. GENERATOR, WC DETECTOR)
MUTE
256FS,etc. 256FS,etc.
256FS ,etc.
IC112 44pin
DIR2
15
ATSC
IC127~134 20pin
IC109 80pin
CONSOLE I/O 1 IN AUDIO
(PHASE ADJUSTER & FORMAT CONVERTER)
CONSOLE I/O 1 IN AUDIO
CONSOLE I/O 1 IN AUDIO
CONSOLE I/O 1 IN AUDIO
FS
IC122, 123 20pin
CONSOLE I/O 2 OUT AUDIO CONSOLE I/O 2 WC CONSOLE I/O 2 IN AUDIO
[2]
SAME AS ABOVE
[CONSOLE I/O]
[CONSOLE I/O]
JK4
KEC-92538-7 63
KEC-92538-8
IC104 20pin
IFC1 P.59
CONNECTOR
REMOTE(RS-422)
TIME CODE
BUFFER & TRANSCEIVER
IC105 20pin
GPI
IC100 14pin
DRIVER & RECEIVER
IC201, 301, 401, 501 16pin
CONNECTOR(BNC X4) [IN] [1] [OUT] [IN] [2] [OUT] [CONSOLE] [CONTROL I/O]
CONTROL I/O
GPI
DRIVER & RECEIVER
IC101 16pin
CONNECTOR(9pin DSUB) [RS-422] [REMOTE]
REMOTE(RS-422)
TIME CODE
I/O PORT
CONTROL
CONTROL
DRIVER
CONTROL
RECEIVER
IC106 3pin
CONNECTOR(25pin DSUB) [GPI]
CONNECTOR(female XLR) [TIME CODE IN]
JK5
DSP1D
64
65
DSP1D
IFC1 P.59
CONNECTOR
BUFFER & TRANSCEIVER
9,11 IC106 20pin 8,12
MIDI IN,OUT
8,9,11,12
LOCK
USB
WC
FS
4 IC103, 104, 106 20pin
BUFFER & TRANSCEIVER
LOCK
5 17 IC204 20pin 15 6
PC CONTROL(RS-232-C)
15
USB
DIR2
(CLOCK GENERATOR) IC202 44pin 36
MIDI OUT
RECEIVER
IC101 8pin 4
CONNECTOR(MIDI X3)
MIDI IN
3 1
FS
USB CONTROLER & DRIVER & RECEIVER
IC105 28pin 7
WC
10 IC200, 201 16pin 9
DRIVER
IC107,108 2
DRIVER & RECEIVER
IC102 16pin
DRIVER & RECEIVER
3
CONNECTOR(9pin DSUB) [RS-232C] [PC CONTROL]
CONNECTOR(USB) [USB]
USB
CONNECTOR(BNC X2) [IN] [OUT] [WORD CLOCK]]
WC
FS
KEC-92538-9
[IN]
[THRU] [OUT] [MIDI]
JK6
DSP1D
CONNECTOR
CONNECTOR
USB PC CONTROL(RS-232-C) CASCADE CONTROL I/O
CONNECTOR
CONTROL I/O EM
IFC1 P.59
CONNECTOR
TIME CODE MIDI IN,OUT REMOTE(RS-422) GPI LED CONTROL
CONNECTOR
INPUT,OUTPUT CONTROL I/O EM DPM METER DATA TRIGGER
AUDIO DPM METER DATA TRIGGER 256FS,etc. AUDIO DPM METER DATA TRIGGER 256FS,etc. AUDIO DPM METER DATA TRIGGER 256FS,etc. AUDIO DPM METER DATA TRIGGER 256FS,etc. AUDIO
CONNECTOR
CONNECTOR
CONNECTOR
MB11
DPM METER DATA TRIGGER
CONNECTOR
PDB P.71 GDB P.70
CONNECTOR
IDB P.69
IDB P.69
EDB P.69
256FS,etc.
EMB P.68
IFC
CIB P.67
MB11 LED2
KEC-92538-10 66
LED2
67
DSP1D
MB11 P.66
CONNECTOR
CASCADE CONTROL I/O
PC CONTROL(RS-232-C)
IC105~110, IC135, IC137 20pin
CPU (TIMECODE,MIDI,REMOTE, GPI CONTROL)
IC129 112pin
REMOTE(RS-422) REMOTE(RS-422)
MIDI IN,OUT MIDI IN,OUT
CONTROL I/O
TIME CODE
GPI
USB
IC112~115 24pin
BUFFER & TRANSCEIVER
EM
IC120, 121, IC130, IC140, IC145, 146 20pin
TC
TC
IC136 44pin
EM
PC CONTROL(RS-232-C)
CASCADE CONTROL I/O
TC
HI
CONTROL I/O
SRAM
IC133 44pin
FLASH MEMORY
IC132 48pin
DUAL PORT MEMORY
IC127 100pin
FIFO
IC118, IC119 32pin
DUAL PORT MEMORY
IC116 100pin
FIFO
IC122, IC123 32pin
DUAL PORT MEMORY
IC138 100pin
FLASH MEMORY
IC142 48pin
SRAM
IC143 44pin
TC
UP
HI
DW
FPGA (CONTROL I/O)
IC126 240pin
CPU (PC CONTROL, CASCADE IN,OUT CONTROL)
IC139 112pin
KEC-92538-11
CIB
KEC-92538-12
CPU (SCENE,METER CONTORL)
IC114 144pin
MB11 P.66
CONNECTOR
METER DATA TRIGGER
INPUT,OUTPUT CONTROL I/O
LED CONTROL
IC137~146 20pin
DPM
IFC
EM
BUFFER & TRANSCEIVER
IC102~104 20pin
IC109~112 20pin
IC147 20pin
LED CONTROL
BATTERY
(BUCK UP)
EM
INPUT,OUTPUT CONTROL I/O
DPM
METER DATA TRIGGER
UI
IC119,120 44pin
SRAM
IC124,125 32pin
FLASH MEMORY
IC118 48pin
DUAL PORT MEMORY
IC113 100pin
OUT PORT
DUAL PORT MEMORY
IC126 100pin
FLASH MEMORY
IC130 48pin
SRAM
IC131 44pin
EM
EM
UI
FPGA (DUAL PORT MEMORY CONTROL)
IC133 100pin
FPGA (UI BUS CONTROL)
IC135 100pin
CPU (DIGITAL I/O CONTROL)
IC127 112pin
EMB
68
DSP1D
69
DSP1D
MB11 P.66
CONNECTOR
METER DATA TRIGGER
IC250~253 20pin IC255~260 20pin
256FS,etc.
AUDIO
BUFFER & TRANSCEIVER
DPM
IC600~606 20pin
AUDIO
256FS,etc.
SRAM
IC103 44pin
FLASH MEMORY
IC104 48pin
DSP
METER DATA TRIGGER
TRANSCEIVER
IC101 20pin
DSP DSP SECTION
DSP
CONTROL
IDB
:See P.74-93
EDB
:See P.92,93
CPU
(DSP,DUAL PORT MEMORY CONTROL)
IC100 112pin 31
WAIT
140
FPGA
(DSP ACCESS & WAIT CONTORL ,DUAL PORT MEMORY CONTROL)
IC254 144pin
WAIT
IDB EDB
KEC-92538-13
KEC-92538-14
MB11 P.66
CONNECTOR
METER DATA TRIGGER
IC220~229 20pin
256FS,etc.
AUDIO
DPM
BUFFER & TRANSCEIVER
AUDIO
256FS,etc.
SRAM
IC103 44pin
FLASH MEMORY
IC104 48pin
DSP
(DSP,DUAL PORT MEMORY CONTROL) 31 IC100 112pin
METER DATA TRIGGER
TRANSCEIVER
IC102 20pin
DSP
DSP
DSP SECTION See P.84-88
CONNECTOR
CONTROL
BUFFER
CPU WAIT
140
FPGA
(DSP ACCESS & WAIT CONTORL, DUAL PORT MEMORY CONTROL)
AUDIO
IC850~871 20pin
AUDIO
PDB P.71
WAIT
IC200 144pin
GDB
70
DSP1D
71
DSP1D
MB11 P.66
CONNECTOR
METER DATA TRIGGER
IC106,IC110~112,IC200~202,IC204~206 20pin
AUDIO
BUFFER & TRANSCEIVER
DPM
256FS,etc.
IC811,IC817~822,IC850,851,854,IC863~868, IC870~872,IC900,901 20pin
AUDIO
IC902~904 20pin
SRAM
IC107 44pin
FLASH MEMORY
IC114 48pin
256FS, etc. AUDIO
DSP
(DSP,DUAL PORT MEMORY CONTROL) 31
IC101 112pin
METER DATA TRIGGER
CONNECTOR
BUFFER
IFC1 P.66
AUDIO
TRANSCEIVER
IC800~810, IC817 IC855~860,862,869 20pin IC105 20pin
DSP
DSP
DSP SECTION See P.72,73 89,90,91
CONTROL
CONNECTOR
BUFFER
AUDIO CPU WAIT
140
AUDIO
GDB P.70
FPGA
(DSP ACCESS & WAIT CONTORL ,DUAL PORT MEMORY CONTROL)
IC203 144pin IC812~817, IC852,853,861,862 20pin
WAIT
KEC-92538-15
PDB
DSP1D
IN:40 OUT:17 INPUT 1-4 INPUT 5-8 INPUT 9-12 INPUT 13-16 INPUT 17-20 INPUT 21-24 INPUT 25-28 INPUT 29-32 INPUT 33-36 INPUT 37-40 INPUT 41-44 INPUT 45-48 INPUT 49-52 INPUT 53-56 INPUT 57-60 INPUT 61-64 INPUT 65-68 INPUT 69-72 INPUT 73-76 INPUT 77-80 INPUT 81-84 INPUT 85-88 INPUT 89-92 INPUT 93-96 INPUT 97-100 INPUT 101-104 INPUT 105-108 INPUT 109-112 INPUT 113-116 INPUT 117-120 INPUT 121-124 INPUT 125-128 INPUT 129-132 INPUT 133-136 INPUT 137-140 INPUT 141-144 INPUT 145-148 INPUT 149-152 INPUT 153-156 INPUT 157-160 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 CH IN 1-4 CH IN 5-8 CH IN 9-12 CH IN 13-16 CH IN 17-20 CH IN 21-24 ST IN 1-2 INSERT IN CH 1-4 INSERT IN CH 5-8 INSERT IN CH 9-12 INSERT IN CH 13-16 INSERT IN CH 17-20 INSERT IN CH 21-24 INSERT IN ST IN 1-2 2TR IN 1-2(LR) 2TR IN 3-4(LR) 2TR IN 5-6(LR) INPUT 161-164 INPUT 165-168 INPUT 169-172 INPUT 173-176 INPUT 177-180 INPUT 181-184 INPUT 185-188 INPUT 189-192 INPUT 193-196 INPUT 197-200 INPUT 201-204 INPUT 205-208 INPUT 209-212 INPUT 213-216 INPUT 217-220 INPUT 221-224 INPUT 225-228 INPUT 229-232 INPUT 233-236 INPUT 237-240 INPUT 241-244 INPUT 245-248 INPUT 249-252 INPUT 253-256 INPUT 257-260 INPUT 261-264 INPUT 265-268 INPUT 269-272 INPUT 273-276 INPUT 277-280 INPUT 281-284 INPUT 285-288 INPUT 289-292 INPUT 293-296 INPUT 297-300 INPUT 301-304 INPUT 305-308 INPUT 309-312 INPUT 313-316 INPUT 317-320 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
IN:40 OUT:15 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 CH IN 25-28 CH IN 29-32 CH IN 33-36 CH IN 37-40 CH IN 41-44 CH IN 45-48 ST IN 3-4 INSERT IN CH 25-28 INSERT IN CH 29-32 INSERT IN CH 33-36 INSERT IN CH 37-40 INSERT IN CH 41-44 INSERT IN CH 45-48 INSERT IN ST IN 3-4 KEY IN 1-4 KEY IN 1-4 KEY IN 1-4 KEY IN 1-4
P.92,93
IN:28 OUT:14 EFFECT RETURN 1-2(LR) EFFECT RETURN 3-4(LR) EFFECT RETURN 5-6(LR) EFFECT RETURN 7-8(LR) ANALYZER SOURCE 1 ANALYZER SOURCE 2 GEQ RETURN 1-4(LR) GEQ RETURN 5-8(LR) GEQ RETURN 9-12(LR) GEQ RETURN 13-16(LR) GEQ RETURN 17-20(LR) GEQ RETURN 21-24(LR) CASCADE IN TB,COMM.,SUB IN C1 2TR IN 1-2(LR) C1 2TR IN 3-4(LR) C1 2TR IN 5-6(LR) C1 TALKBACK A-B,RESERVED C2 2TR IN 1-2(LR) C2 2TR IN 3-4(LR) C2 2TR IN 5-6(LR) C2 TALKBACK A-B,RESERVED KEY IN 1-4 OUT PATCH TEST 1 OUT PATCH TEST 2 OUT PATCH TEST 3 OUT PATCH TEST 4 OUT PATCH TEST 5 OUT PATCH TEST 6 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 44 45 46 47 48 49 50 51 52 53 54 55 56 57 CH IN 49-52 CH IN 53-56 CH IN 57-60 CH IN 61-64 CH IN 65-68 CH IN 69-72 ST IN 5-6 INSERT IN CH 49-52 INSERT IN CH 53-56 INSERT IN CH 57-60 INSERT IN CH 61-64 INSERT IN CH 65-68 INSERT IN CH 69-72 INSERT IN ST IN 5-6
P.74
P.75
P.76
[1] P.74 P.76 P.85 P.89 [CONSOLE I/O] [2]
[1]-[5]
[INPUT]
[INPUT]
[6]-[10]
P.88
DSP5
[DIGITAL I/O]
[DIGITAL I/O]
DSP5
P.125
IC250 PARALLEL BUS
IC251
IC300
DSP5
P.73
FUNCTION: INPUT PATCH, PEAK METER KEC-92538-16
PDB
72
DSP1D
IN:40 OUT:14 INPUT 1-4 INPUT 5-8 INPUT 9-12 INPUT 13-16 INPUT 17-20 INPUT 21-24 INPUT 25-28 INPUT 29-32 INPUT 33-36 INPUT 37-40 INPUT 41-44 INPUT 45-48 INPUT 49-52 INPUT 53-56 INPUT 57-60 INPUT 61-64 INPUT 65-68 INPUT 69-72 INPUT 73-76 INPUT 77-80 INPUT 81-84 INPUT 85-88 INPUT 89-92 INPUT 93-96 INPUT 97-100 INPUT 101-104 INPUT 105-108 INPUT 109-112 INPUT 113-116 INPUT 117-120 INPUT 121-124 INPUT 125-128 INPUT 129-132 INPUT 133-136 INPUT 137-140 INPUT 141-144 INPUT 145-148 INPUT 149-152 INPUT 153-156 INPUT 157-160 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 44 45 46 47 48 49 50 51 52 53 54 55 56 57 CH IN 73-76 CH IN 77-80 CH IN 81-84 CH IN 85-88 CH IN 89-92 CH IN 93-96 ST IN 7-8 INSERT IN CH 73-76 INSERT IN CH 77-80 INSERT IN CH 81-84 INSERT IN CH 85-88 INSERT IN CH 89-92 INSERT IN CH 93-96 INSERT IN ST IN 7-8 INPUT 161-164 INPUT 165-168 INPUT 169-172 INPUT 173-176 INPUT 177-180 INPUT 181-184 INPUT 185-188 INPUT 189-192 INPUT 193-196 INPUT 197-200 INPUT 201-204 INPUT 205-208 INPUT 209-212 INPUT 213-216 INPUT 217-220 INPUT 221-224 INPUT 225-228 INPUT 229-232 INPUT 233-236 INPUT 237-240 INPUT 241-244 INPUT 245-248 INPUT 249-252 INPUT 253-256 INPUT 257-260 INPUT 261-264 INPUT 265-268 INPUT 269-272 INPUT 273-276 INPUT 277-280 INPUT 281-284 INPUT 285-288 INPUT 289-292 INPUT 293-296 INPUT 297-300 INPUT 301-304 INPUT 305-308 INPUT 309-312 INPUT 313-316 INPUT 317-320 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
IN:40 OUT:14 44 45 46 47 48 49 50 51 52 53 54 55 56 57 INSERT IN MIX 1-4 INSERT IN MIX 5-8 INSERT IN MIX 9-12 INSERT IN MIX 13-16 INSERT IN MIX 17-20 INSERT IN MIX 21-24 INSERT IN MIX 25-28 INSERT IN MIX 29-32 INSERT IN MIX 33-36 INSERT IN MIX 37-40 INSERT IN MIX 41-44 INSERT IN MIX 45-48 INSERT STEREO A-B SUB IN 2,DIRECT IN 2 EFFECT RETURN 1-2(LR) EFFECT RETURN 3-4(LR) EFFECT RETURN 5-6(LR) EFFECT RETURN 7-8(LR) ANALYZER SOURCE 1 ANALYZER SOURCE 2 GEQ RETURN 1-4(LR) GEQ RETURN 5-8(LR) GEQ RETURN 9-12(LR) GEQ RETURN 13-16(LR) GEQ RETURN 17-20(LR) GEQ RETURN 21-24(LR) CASCADE IN TB,COMM.,SUB C1 2TR IN 1-2(LR) C1 2TR IN 3-4(LR) C1 2TR IN 5-6(LR) C1 TALKBACK A-B,RESERVED C2 2TR IN 1-2(LR) C2 2TR IN 3-4(LR) C2 2TR IN 5-6(LR) C2 TALKBACK A-B,RESERVED KEY IN 1-4 OUT PATCH TEST 1 OUT PATCH TEST 2 OUT PATCH TEST 3 OUT PATCH TEST 4 OUT PATCH TEST 5 OUT PATCH TEST 6
IN:28 OUT:15 00 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 INSERT IN MATRIX 1-4 44 INSERT IN MATRIX 5-8 45 INSERT IN MATRIX 9-12 46 INSERT IN MATRIX 13-16 47 INSERT IN MATRIX 17-20 48 INSERT IN MATRIX 21-24 49 50 SUB IN 1(LR),DIRECT IN 1(LR) TALKBACK A-B,COMM. A-B 51 52 CASCADE IN TB,COMM.,SUB IN(LR) FFT IN,FFT NOISE 53 IN PATCH TEST 1 54 IN PATCH TEST 2 55 IN PATCH TEST 3 56 IN PATCH TEST 4 57 IN PATCH TEST 5 58
P.89
P.85
P.77
P.74,76
P.86
P.90
P.74,76
DSP5
DSP5
IC301 PARALLEL BUS P.72
IC350
IC351
DSP5
FUNCTION: INPUT PATCH, PEAK METER
PDB
KEC-92538-17
73
DSP1D
1M x 16 (16Mbit)
ADDRESS,RW CONTROL
DRAM
IC251 IC252 P.88 P.89 P.90 P.88 P.84 [DIGITAL I/O] [CASCADE] [OUT]
@ PRE COMP METER x 4 @ GATE KEY IN METER x 4 CH IN 1-4 INSERT IN CH 1-4 KEY IN 1-4 0 IN:4 0 1 OUT:8 1 2 2 3 3 4 4 5 5 6 6 7 7 IC250
PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON
DATA BUS(DRAM 32bit) SUB IN 1(LR),DIRECT IN 1(LR) A(TB,TB/OSC,OSC,COMM.) CASCADE OUT TB,COMM.,SUB IN(LR)
P.78
P.73
DSP6
CASCADE IN TB,COMM,SUB IN(LR)
COMP KEY IN METER(CH1-4) CH1-4 KEY IN CUE INSERT OUT CH1-4 DIRECT OUT CH1-4
DSP6
P.72
SUB IN 1(LR),DIRECT IN 1(LR) SUB IN 2(LR),DIRECT IN 2(LR) TALKBACK A-B,COMM. A-B
P.80 P.90
IN:4 0 0 OUT:6 1 1 2 2 3 3 4 4 5 5 6 6 7 7 IC401
KEY 1-4 OUT(CH IN1-24) PRE EQ METER 1 KEY IN METER 1
P.80
DATA BUS(DRAM)
DATA BUS(DRAM)
PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON PRE EQ,PRE FADER,POST FADER,POST ON
P.75
P.72
DSP6
COMP KEY IN METER(CH5-8) CH5-8 KEY IN CUE INSERT OUT CH5-8 DIRECT OUT CH5-8
P.80 P.90
DSP6
CH IN 5-8 INSERT IN CH 5-8
3 4 0 1 2 5 6 7
IN:4 0 OUT:8 1 2 3 4 5 6 7 IC255
P.72 P.78
ST IN 1-2 INSERT IN ST IN1-2
0 1 2 3 4 5 6 7
IN:3 0 PRE EQ,PRE FADER,POST FADER,POST ON OUT:8 1 PRE EQ,PRE FADER,POST FADER,POST ON 2 PRE EQ,PRE FADER,POST FADER,POST ON 3 PRE EQ,PRE FADER,POST FADER,POST ON COMP KEY IN METE