Oberheim Prommer User`s Guide
Contents
1. Most of the function buttons have more than one function and in this manual these switches will be referred to mainly by their topmost label Function switches are grouped by function type into horizontal rows The top row of buttons deal with MIDI control of the Prommer The next row contains EPROM functions the row beneath that has Sound Modification functions and the bottom row contains sampling playback and other miscellaneous controls Please notice the button just beneath the right side of the function buttons This is the PARAMETERS button and is also marked with a plus sign Also notice that some of the function buttons have labels preceded by a plus sign This indicates that this is a Parameter of the Function listed above it and to access the Parameter you must first press the desired function button and then press the PARAMETERS button Prommer User s Guide Getting Started 9 MAKING YOUR OWN SOUNDS The following is a step by step explanation of how to get the Prommer to record and play back a sound and some exercises in using some of the simple functions CONNECTING THE PROMMER See figure 1 a Connect the AC cable and plug it in to a suitable source of power Turn the Prommer power switch ON and set the input level control all the way down b Connect an amplifier to the Prommer s line output If you wil be using a microphone the amplifier output should go to headphones or speakers physically distant from the microph2. Two Sounds on One Chip Prommer User s Guide EPROMs 33 Another way to do this is to program the block that will be the first of the two Prommer User s Guide sounds into your EPROM and then set the PROM offset and program the second sound into the second half of the EPROM For example let s say you have two 4k sounds that you want to put on an 8k EPROM Program the first sound normally onto a 2764 with the PROM offset equal to zero Since the current block is only 4k in length the programming process will only program the first half of the EPROM leaving the second half blank Now set the PROM offset to 4k and program the second block into the same 2764 Don t forget to reset the PROM offset back to zero after you finish PICTURE HERE two sounds in one EPROM EPROMs 34 Chapter 7 BLOCK FUNCTIONS There are several functions available to manipulate blocks of memory in the Prommer The functions operate in the following way Press the appropriate function button until the display shows the desired function Next select the correct parameters for the function to operate with and then press EXECUTE Please notice that in al Prommer displays whenever you see an asterisk it means that you must press the EXECUTE button in order to perform the indicated function COPYING BLOCKS The contents of blocks may be copied from one place to another in memory Press the COPY BLOCK button 1COPY TO2 The number on the
3. Absolute Press EXECUTE to calculate an envelope for the current block parameters DECAY TIME Select decay time for envelope operation 0 99 START POINT Select envelope start point 0 100 99 100 Select secondary block to mix with the current block Press EXECUTE to add blocks together in the current block parameters MIX RATIO Select the mix ratio between the blocks to be mixed Current Block Secondary Block 0 4 16 4 RING MODULATE BLOCKS STRETCH BLOCK SQUASH BLOCK SELECT PROM CHECK ERASURE COMPARE DATA PROGRAM PROM PROGRAM LINEAR Prommer User s Guide Select secondary block to modulate with the current block Press EXECUTE to multiply blocks together with the scaled result in the current block parameters MIX RATIO Same as for mixing blocks Press EXECUTE to stretch the current block to double its original size averaging data to fill in new bytes Press EXECUTE to squash the current block to half its original size discarding every other byte Use arrows to select appropriate EPROM or PROM type parameters PROM OFFSET Select EPROM address offset in 1K increments Press EXECUTE to test EPROM for erasure Press EXECUTE to compare EPROM data with data in current block Press EXECUTE to program EPROM with data from the current block Summary of Functions 56 Press EXECUTE to program EPROM in linear format with data from the current block PROG
4. Future expansion Sound data starts here Last byte of sound data End system exclusive status byte PROMMER GLOBAL PARAMETER DUMP Transmitted and received The global parameter dump is transmitted automatically after a System Exclusive Dump ALL command 11110000 00010000 00000101 00000011 0100xxxx 0000xxdd 010000dd 0000dddd 0100xxxx 0000xxxd 0100mxxx 0000dddd 0100xxxx 0000xxdd 2 VCF 0100xxxx 0000xxdd 2 VCF 0100xxxx 0000xxxd 0100pxxx 0000xxxd O disabled 0 negative 0100dddd 0000dddd 0100dddd 0000dddd 11110111 Prommer User s Guide Appendix 3 80 System exclusive status byte Oberheim ID number Prommer ID number Parameter Dump code MIDI mode 0 keyboard zone 1 Block Channel mode 2 velocity zone Bend Range 0 lt d lt 36 Program Change Enable 1 Enabled MIDI Channel d 0 15 OMNI mode m 1 on MIDI Velocity destination 0 off 1 VCA MIDI Pressure destination 0 off 1 VCA Idle Bypass Mode 0 off 1 on Ext trigger enable d 1 enabled Ext trigger polarity p 1 positive Ext trigger delay MSB Ext trigger delay LSB EOX End system exclusive data MIDI Specification UNIVERSAL SAMPLE DUMP SYSTEM MESSAGES DUMP REQUEST transmitted and received 11110000 FOH System exclusive status byte 01111110 7EH Universal ID number Oddddddd Channel number currently set to Basic channel on transmission and ignored on reception 00000000 03H Dump Request command byte Oddddd
5. acable between MIDI transmitters and receivers The commands include such functions as Note On Note Off Pitch Bend Program Change etc The Prommer is capable of receiving and transmitting several types of MIDI information Note On commands received by the Prommer from a keyboard for example can play back sounds at a pitch relative to the note played For a complete description of how the Prommer implements MIDI see appendix 3 The Prommer may be set to receive voice messages on any one of sixteen MIDI channels To select the channel for the Prommer press the MIDI CHANNEL button The display will show the current MIDI receive channel MIDI CHAN OMNI OMNI means that the Prommer will recognize MIDI data on all sixteen channels To select a single channel use the number pad to enter a number from 1 to 16 MIDI CHAN 12 If a single channel number is set the Prommer will only recognize data that is received on that channel Enter zero or press CLEAR to reset to OMNI mode MIDI PITCH CONTROL MIDI ECHO Press the MIDI CHANNEL button again to see the next parameter 3 KEY PITCH ON The keyboard control of playback pitch may be toggled ON or OFF with the button The current block is displayed on the left and may be changed at this time with the number pad or the arrows The keyboard pitch enable option is provided so that each block may be set to allow the MIDI controller keyboard to trigger the sound and control the p
6. calculation they may take from a few seconds to more than a minute to execute depending on the function and the amount of data involved You can stop a function before itis finished with the STOP button but there is no way to start again at the point where you stopped so you would have to start from the beginning if you wanted to continue WARNING NOTE Before using any of the following functions it is advised that you make a copy of your sound in another part of memory if possible since the effects of some of these functions are not reversible Prommer User s Guide Block Functions 37 BIT FUNCTION The bit function can be used for special effects or other purposes Press the REVERSE button again to see the bit display The number on the left is the current block The asterisk on the right indicates that this is a function that requires you to press the EXECUTE button before any action will be taken The eight dashes correspond to the eight bits in adata byte with the most significant bit on the left A blinking cursor showing the position of the currently selected bit can be moved left and right with the arrow buttons The bit function when executed will modify every byte of data in the current block according to the image displayed in the following manner If there is a dash displayed select with CLEAR button there will be no change to the bits at that position If an X is displayed button the data at that po
7. 2732 Hitachi HN27C32 EPROM 2732 HN27C32A EPROM 2732A HN462732 EPROM 2732 HN482732A EPROM 2732A Intel 2732 EPROM 2732 2732A EPROM 2732A P2732A PROM 2732A Mitsubishi M5L2732K EPROM 2732 M5L2732A EPROM 2732A National NMC2732 EPROM 2732 NMC27C32 EPROM 2732 NEC D2732D EPROM 2732 D2732A EPROM 2732A SGS M2732A EPROM 2732A Texas Inst TMS 2732JL EPROM 2732 TMS 2732A EPROM 2732A Toshiba TMM2732D EPROM 2732 TMM2732A EPROM 2732A These types of PROMs have been tested at Oberheim and are known to work with the Prommer Prommer User s Guide Appendix 2 EPROM Cross Reference 73 8K PROMS Manufacturer Part 4 Type Select PROM type AMD AM2764 EPROM 2764 AM2764A EPROM 2764A AM2864BDC EEPROM AM9864 AM9864DC EEPROM AM9864 Fujitsu MBM2764 EPROM 2764 MBM27C64 EPROM 2764 Hitachi HN27C64G EPROM 2764 HN482764G EPROM 2764 HN482764P PROM 2764 Intel 2764 EPROM 2764 2764A EPROM 2764A P2764 PROM 2764 P2764A PROM 2764A Mitsubishi M5L2764K EPROM 2764 NEC D2764 EPROM 2764 SEEQ DQ5133 EPROM 2764 DQ5133H EPROM 2764 SGS 2764 EPROM 2764 S MOS SPM2864C EEPROM 2864C Texas Inst TMS 2764 EPROM 2764 Toshiba TMM2764D EPROM 2764 Prommer User s Guide Appendix 2 74 These types of PROMs have been tested at Oberheim and are known to work with the Prommer EPROM Cross Reference 16K PROMS Manufacturer Part 4 Type Select PROM type AMD AM27128 EPROM 27128 AM27128A EPROM 27128A Fujitsu MBM27128 EPROM 27128 Hitachi HN
8. All display Program Setup display Idle Bypass display Loop Start display Ring Modulation display Swap Blocks display Record Trigger Envelope Decay Start Memory Protect display Display Sample Time MIDI Echo display Block Length display Zone Upper Limit display External Trigger Holdoff Load Linear Data display Squash Block display Block Length whole MIDI Dump All Blocks Immediate EXECUTE for RUN PROGRAM MIDI Specification IF YOU HAVE A PROBLEM The staff at E C C Oberheim wish to thank you for purchasing an Oberheim product and hope that you will remain a long time Oberheim player We are confident that your instrument will provide you with years of excellent service as each unit is thoroughly tested and inspected before it leaves the factory The Owner s Manual was written to be logical and comprehensive so that you will be able to get the most out of your Oberheim Although we have taken great care in manufacturing your Oberheim instrument and preparing thorough documentation in the manual products at this level of technology may require servicing The following Warranty Policy outlines your rights and responsibilities and also lists several limitations of coverage and important exclusions We strongly recommend that you read the following policy statements carefully and refer to the procedure at the end in obtaining service for your Oberheim product should it ever be needed OBERHEIM LIMITED CUSTOMER WARRANTY N
9. THIS IS JUST A SAMPLE Prommer User s Guide 12 There are lots of other things you can do with the Prommer Feel free to experiment and have fun Read the rest of this guide for complete details on how all the functions work and please read the warnings at the beginning of the section on EPROMs before handling any EPROMs Getting Started Chapter 3 BLOCKS A block is a continuous section of memory which may be located in any part of the Prommer s available memory There are sixteen blocks each of which is user definable The currently selected block is the section of memory used for recording playback and all other Prommer functions SELECTING A BLOCK DEFINING A BLOCK BLOCK ADDRESS Prommer User s Guide 13 The SELECT BLOCK function is used to select the current block The sixteen blocks are numbered 1 through 16 Press the SELECT BLOCK button and the display will show the current block like this 1 SELECT BLOCK You may use the number pad or the arrows to change the current block number at this time To define a block you must specify it s address and length The Prommer contains 65 536 bytes of sound storage memory numbered 0 through 65535 For convenience we usually describe addresses and length in 1K units one K is equal to 1024 so we say the Prommer has a maximum memory capacity of 64K 64 x 1024 65536 The reason for using a strange number like 1024 is that the capacities of computer memory chips l
10. block to twice its original length The block length parameter is doubled automatically Bytes from the original block are spread out to occupy every other address of the new block and the spaces between are filled with the average value of the data on either side WARNING The protect status of the memory following the current block is NOT checked before the stretch function is executed Press STRETCH again to access the squash function 2 SQUASH This function is the opposite of stretch it will shorten the current block to half it s original length copying every other byte of the original block to the new block The new block is located at the same start address as the original block and the leftover part of the original block is not disturbed Press EXECUTE to perform the function When you play back a block that has been stretched you will hear that the pitch is an octave lower Squashing a block will raise the apparent pitch by one octave You should understand that when you squash a block you will lose half of the information contained in the original block and that stretching it out again will only fill in the gaps with approximated data Squashing and then stretching a block will act as a sort of low pass filter Sound Modifications Chapter 9 MIDI BASIC CHANNEL MIDI is a standardized digital communication interface common to many electronic musical instruments MIDI commands and messages are transmitted serially over
11. eliminate the sampling noise you will normally hear when monitoring the input with no signal coming in If you are recording sounds you should set the idle bypass mode OFF This will enable you to hear any clipping distortion as it happens and make the neccessary adjustments in the input level To turn the IDLE BYPASS on or off press the EXT TRIGGER button one more time IDLE BYPASS OFF Use the button or the arrows to toggle the idle bypass mode Playback Modes 24 Chapter 6 EPROMs 24 pin PROM Prommer User s Guide The Prommer is able to program or burn several different types of PROMs Programmable Read Only Memories EPROMs Eraseable PROMs and EEPROMs Electrically Eraseable PROMs See appendix 2 for a full listing of compatible types An EPROM is an integrated circuit chip that can be used for permanent or semi permanent data storage The terms PROM and EPROM will be used interchangeably throughout this manual the only difference between them are the part numbers and the fact that PROMs cannot be erased while EPROMs may be erased by exposure to ultraviolet light and then re programmed EEPROMs are a special type of PROM that can be re programmed without having to be erased You can use EPROMs to permanently store the sounds you have sampled with the Prommer Once you have a sound on an EPROM it may be reloaded into the Prommer at any time or used in a drum machine such as the Oberheim DMX All EPROM func
12. for playback For fixed filter select filter value 1 255 Select playback mode Normal Gated Loop Gated Loop parameters LOOP START POINT Select address offset for beginning of playback loop LOOP END POINT Select address offset for end of playback loop EXTERNAL TRIGGER EMPHASIS IDLE BYPASS COPY BLOCK SWAP BLOCKS ERASE BLOCK ERASE ALL Prommer User s Guide Select external trigger On positive trigger On negative trigger Off Select Record and Playback emphasis On Off Select Idle Bypass mode On Off Select destination block for copy operation Press EXECUTE to copy Select secondary block for swap operation Press EXECUTE to swap Press EXECUTE to set all bytes of the current block to zero Press EXECUTE to clear ALL of the memory in the Prommer and reset default parameters Summary of Functions 55 REVERSE EXAMINE MEMORY ENVELOPE MIX BLOCKS Press EXECUTE to reverse the order of the current block Use arrows to move cursor Use 0 1 CLEAR keys to select pattern for each bit Press EXECUTE to mask memory with displayed pattern current block only Display memory Address shown is absolute memory address Use number pad to modify data except in HEX display mode Use arrows to change address or press and enter address directly parameters DISPLAY MODE Select data display mode for examine function Hexadecimal Sign amp magnitude
13. middle play Block 3 and higher notes play Block 1 Here is what was actually happening when you first pressed middle C The current block was Block 1 and the note played 60 was outside of the zone limits for the block 79 127 Since the note didn t fit within the limits for Block 1 the limits for the next block Block 2 were checked against note number 60 Block 2 had both limits set to zero so again the note didn t fit within the limits of the block and the next block was checked Block 3 had its limits set to 55 and 78 and since 60 does fit within this range Block 3 became the current block and was played This checking process happens every time a new MIDI note is played Three blocks were used just as an example here but if you like you can control as many as sixteen blocks from the keyboard each in its own zone DRUM MACHINE Here is one example of using several drum sounds in the Prommer to simulate a MIDI drum machine A typical MIDI controlled drum machine uses MIDI notes in a specific range to play its drums with each MIDI note in that range assigned to a different sound Let s assume that the Prommer has 12 different sounds in blocks 1 through 12 that you want to play from the range of MIDI notes 36 through 47 Start by setting the zone limits for each of the blocks to its respective MIDI note both upper and lower limits should be the same Next set both zone limits for unused blocks 13 through 16 to zero and finally s
14. on the display You should double check the EPROM type that is selected against the part number printed on the EPROM If the EPROM type is correct you can try programming the EPROM a second time in case the error was transient If the error happens again as a last resort try erasing the EPROM and program it again Assuming there is no problem when programming other EPROMs of the same type if the error still happens the EPROM is defective and should be discarded If the same error happens when using other EPROMs the Prommer may have a hardware problem If you suspect a hardware problem contact your nearest Oberheim Authorized Service Center and do not attempt to program any more EPROMs If you have a problem re programming an EEPROM Electrically Eraseable PROM you may need to erase it before re programming To erase an EEPROM first select an unused block of memory the same size as the EEPROM 8k for a 9864 or 2864 Then using the Prommer s bit function set up the following pattern 11111111 Press EXECUTE and all the data in the block will be set to ones the same as an erased EPROM Now use the PROGRAM PROM function to program the EEPROM with this new block If the programming operation is successful the chip should now be blank Now try programming the desired block onto the EEPROM LABEL YOUR EPROMS COMPANDED DATA To avoid almost certain confusion you should always put a label on an EPROM immediately after it has been pr
15. press the SOUND DUMP button again 2 MIDI DUMP Press EXECUTE to start transmission of the current block If a closed loop system is used and the receiving machine is not ready to accept data it may send a CANCEL command and the Prommer will stop transmitting Otherwise the Prommer will continue sending until the transmission is complete To receive Universal MIDI data the Prommer must be prepared to accept the data Press the BLOCK DUMP button one more time 2 REQUEST MIDI After you press EXECUTE the Prommer will turn MIDI Echo off and transmit a Dump Request command requesting the sample with the same number as the current block The Prommer will then wait for incoming data If a closed loop system is being used and the other machine is not ready to transmit it may send a MIDI CANCEL command over MIDI and the Prommer will stop waiting and return to normal operation restoring whatever echo mode was previously set The Prommer will also quit if the current block is protected or if you press the STOP key If an open loop system is used after pressing EXECUTE to start the REQUEST MIDI function you must start transmission on the other machine by pressing the proper switches The sample number transmitted by the other machine is ignored and the incoming data is stored in the current block MIDI DATA STORAGE Another feature of the Prommer is the ability to store MIDI data in memory exactly as it is received This is useful f
16. sound chips are 8k 2764 type EPROMs All voices have a wide tuning range sample rates of 24kHz or 32kHz should be OK Voice board name _ Individual outputs Sound Length ofchips Notes BASS SNARE Sidestick 8k 1 Snare 8k 1 Bass 8k 1 HI HAT Hi hat 16k 2 Adjustable decay envelope TOM TOMS Tom4 8k 2 2 identical chips used for Tom 3 i is alternating playback Tom 2 E t Filter envelope 4 pitches Tom 1 CYMBALS Ride 2 32k 4 Ride 1 32k 4 CYMBALS Crash 2 48k 6 2 pitches Crash 1 od D CONGAS Conga 2 8k 2 2 ident chips 2 pitches Conga 1 i s Filter Envelope PERCUSSION Claps 8k 1 Cowbell 8k 1 Cabasa 8k 1 Tamborine 8k 1 Prommer User s Guide Appendix 1 Examples 62 Linn Drum Note All Linn Drum sound chips are 4k 2732 type EPROMs The basic sample rate is approximately 24kHz and not individually tunable per voice with the exception of the Snare Toms and Congas No of EPROMs Block size Drum Voice Location Comments 1 4k Bass drum BASS 2 volume levels 1 4k Cabasa CBSA 2 volume levels 1 4k Claps CLPS 2 8k Conga CGA1 2 2 tunable pitch levels 1 4k Cowbell CWBL 8 32k Crash Cymbal CRS1 8 4 16k Hi hat HAT1 4 3 levels 1 open no envelope 2 8 32k Ride Cymbal RID1 8 2 volume levels 1 4k Side stick SSTK 1 4k Snare SNAR 3 volume levels Side stick and Snare are tunable together 1 4k Tamborine TAMB 2 volume levels 2 8k Tom TOM1 2 2 tunable pitch levels Prommer User s Guide Appendix 1 Examples 63
17. the block Setting the loop points is usually just a matter of trial and error Use the number pad to set the loop points to approximately where you want them and then use the arrows to move each loop point to its nearest zero crossing Now listen to the sound and alternately try changing the loop start point and then the loop end point until the loop sounds OK Notice that if you move a loop point one step zero crossing at a time every other step will make a bad sounding loop This is because at these points the phase of the signal changes abruptly when the sound loops back Playback Modes 22 PLAYBACK TRANSPOSITION The apparent pitch of sounds may be changed by transposing the sample rate for playback Press the TRANSPOSE button to view the current transpose value 1 TRANSPOSE 0 Use the number pad or the arrows to set the transpose amount for the current block in musical semitones Example 12 transpose up one octave 5 transpose down five semitones etc The transposition is based on the currently selected sample rate so playing asound at asample rate of 32kHz transposed down by 12 will give the same result as playing the sound at a sample rate of 16kHz with zero transposition The range of transposition from the front panel is plus or minus 48 which is a range of eight octaves There is more range available if you use a MIDI controller to play the sound MIDI note number 60 Middle C corresponds to the normal play
18. to 1 Damage caused by abuse accident or negligence Oberheim will not cover under warranty any EPROM Sound Chip or Voice Card damaged or destroyed as a result of the owner s mis handling or the improper removal and installation into the Prommer or DMX DX or Stretch Digital Drum Machines 2 Any tampering alteration or modification of the product s mechanical or electronic components 3 Failure to operate the product in strict accordance with the procedures written in the Owner s Manual 4 Repairs performed by unauthorized persons 5 Damage caused by fire smoke falling objects water or liquids etc or natural events such as rain earthquakes floods lightning tornadoes storms etc 6 Damage caused by operation on improper voltages IMPORTANT NOTICE The warranty is VOID if the product is electronically or mechanically modified altered or tampered with in any way Oberheim shall not be liable for costs involved in packing or preparing the product for shipping with regards to time labor or materials shipping and freight costs or time and expenses involved in transporting the product to and from an Oberheim Authorized Service Center an Oberheim Authorized Dealer or the Oberheim Warranty FFEN I AR T N WI IA STEP 1 STEP 2 Prommer User s Guide Appendix 4 87 Factory If a suitable shipping container is unavailable a replacement carton may be purchased from Oberheim Oberheim will not
19. were to use the setup shown in the picture above with Velocity Zone mode selected blocks 1 3 or 5 would play depending on how fast you strike the key on the keyboard A light touch would play Block number 5 a moderate stroke would play Block 3 and a fast depression would play Block 1 You may also divide the ranges of keyboard velocities among up to sixteen different blocks but it is difficult to have precise control over velocity so it is best to limit the number of blocks controlled by velocity to amaximum of about four Also be aware that some types of keyboards are not capable of sending every possible value of velocity over MIDI An example of using Velocity Zone mode might be the case where you have three samples of the same note from an electric bass guitar The first sample is a note that was played softly the second sample was played a little louder and the third sample was popped or played with great emphasis Assuming these samples are in blocks 1 2 and 3 respectively you can set the zone limits as follows Block 1 limits 0 45 Block 2 limits 46 75 Block 3 limits 76 127 and blocks 4 through 16 limits 0 0 Now you can play the bass from the keyboard with dynamic control A way to further enhance the control of this sound is to set the MIDI Velocity destination to VCF so the velocity also controls the brightness of the sound as well as the actual sample played Appendix 1 Examples Prommer User s Gui
20. 27C128 EPROM 27128 HN4827128 EPROM 27128 Intel 27128 EPROM 27128 D27128A EPROM 27128A Mitsubishi M5L 27128K EPROM 27128 NEC D27128 EPROM 27128 SEEQ 5143 EPROM 27128 S MOS SPM 27128H EPROM 27128 SPM 27128C PROM 27128 Texas Inst TMS 27128 EPROM 27128 Toshiba TMM 27128D EPROM 27128 TMM 24128P PROM 27128 These types of PROMs have been tested at Oberheim and are known to work with the Prommer Prommer User s Guide Appendix 2 EPROM Cross Reference 75 32K PROMS Manufacturer Part Type Select PROM type AMD AM27256DC EPROM 27256 Fujitsu MBM27256 EPROM 27256 MBM27C256 EPROM 27256 General Inst 27256 EPROM 27256 Hitachi HN27C256G EPROM 27256 HN27256G EPROM 27256 HN4827256 EPROM 27256 Intel D27256 EPROM 27256 Mitsubishi M5L27256 EPROM 27256 NEC D27256 EPROM 27256 D27C256D EPROM 27256D Oki 27256 EPROM 27256 Toshiba TMM27256D EPROM 27256D TMM24256P PROM 27256D 64K PROMS Manufacturer Part Type Select PROM type AMD AM27512 EPROM 27512 Intel 27512 EPROM 27512 These types of PROMs have been tested at Oberheim and are known to work with the Prommer Prommer User s Guide Appendix 2 EPROM Cross Reference 76 Prommer MIDI Specification Prommer User s Guide Appendix 3 MIDI Specification 77 PROMMER MIDI IMPLEMENTATION TRANSMITTED DATA CHANNEL VOICE MESSAGES None RECEIVED DATA CHANNEL VOICE MESSAGES Status byte Data bytes See notes 1 7 1000nnnn Okkkkkkk Note Off event OXXXXXXX Not
21. ING THE EPROM TYPE Prommer User s Guide To specify an EPROM press the PROM SELECT button and the display will show the currently selected PROM type PROM 2764 8K Use the arrows to select the type you will be using The display example shown here indicates the part number of the EPROM 2764 and the size of the EPROM in bytes 8K The EPROM size is not printed on the EPROM itself it is just shown here for reference in comparing block sizes to EPROM sizes Please read the part number of your EPROM carefully and be aware that there may be differences even in similar part numbers for example a 2732 is not the same as a 2732A and a Toshiba TMM27256D is not the same as an Intel 27256 Permanent damage may occur if you try to program an EPROM when the wrong type is selected Some EPROM part numbers are followed by a dash and a number Example MBM2764 30 The number following the dash 30 indicates the access time of the EPROM and can be ignored for most drum machine type applications Note that some chips may also be marked with a date code such as 8523 indicating that the chip was manufactured in 1985 during the 23rd week of the year Don t let this confuse you The actual part number is usually fairly obvious EPROMs 26 EPROM ADDRESS OFFSET Normal program and read operations start at the first address location of the EPROM and count upward but you can set a PROM offset address if for example you want to program only t
22. Oberheim Prommer MIDI Sampler PROM programmer USER S GUIDE Prommer User s Guide Table of Contents 1 Prommer User s Guide Table of Contents 2 Prommer User s Guide 3 Oberheim Prommer User s Guide By Paul J White Preliminary Edition June 1986 CAUTION To prevent fire or shock hazard do not expose this appliance to rain or moisture Do not remove cover No user servicable parts inside Refer servicing to qualified service personnel WARNING This equipment generates and uses radio frequency energy and if not installed and used properly i e in strict accordance with the instruction manual may cause harmful interference to radio communications Operation of this equipment in a residential area is likely to cause interference in which case the user at his own expense will be required to take whatever measures may be required to correct the interference 1986 Oberheim A division of ECC Development Corporation 11650 W Olympic Blvd Los Angeles CA 90064 All rights reserved Reproduction in whole or in part is prohibited without permission Oberheim the Oberheim logo Prommer Matrix 12 Stretch DMX and DX are trademarks of ECC Development Corporation Drumtraks is a trademark of SEQUENTIAL Sequential Circuits Inc Simmons is a trademark of Simmons Electronics Limited LinnDrum and Linn9000 are trademarks of Linn Electronics Inc Table of Contents TABLE OF CONTENTS PAGE 1 Introduc
23. RAM SETUP Press EXECUTE to program EPROM with all block and playback parameters for entire unit Data requires less than 1k of storage on EPROM LOAD DATA Press EXECUTE to load data from EPROM into current block LOAD LINEAR Press EXECUTE to load linear data from EPROM and convert to companded in the current block LOAD SETUP Press EXECUTE to load block parameters etc for entire unit from EPROM RUN PROGRAM Hold PARAMETERS button and press EXECUTE to run 6809 program starting at the first address of current block Press EXECUTE only to run program out of expansion EPROM internal MIDI CHANNEL Select basic MIDI channel for reception OMNI 1 16 KEY PITCH ENABLE Select MIDI pitch control of playback On Off for current block MIDI ECHO Select echo of incoming MIDI over MIDI OUT On Off Spillover N 1 lt N lt 99 MIDI MODE Select MIDI playback mode Keyboard zone Velocity zone Block Channel parameters ZONE UPPER LIMIT Select upper MIDI zone limit for current block ZONE LOWER LIMIT Select lower MIDI zone limit for current block BEND RANGE Select the bend range for MIDI pitch wheel controller 0 36 semitones up down VELOCITY Select destination for MIDI Note On velocity Off VCA VCF PRESSURE Select the destination for MIDI pressure Off VCA VCF PROGRAM CHANGE Select MIDI program change control of current Block number On Off SYSTEM EXCLUSIVE DUMP Press EXECUTE to dump all
24. Sequential Circuits Inc Drumtraks With the exception of the Bass drum chip which is a 2732 type all EPROMs in the Drumtraks are 2764 Single 4k sound Two sounds on one 8k chip First 4k is Snare second 4k is Rimshot Same 8k chip plays at two different One 32k sound on four 8k chips One 32k sound on four 8k chips Closed Hi Hat is open Hi hat with envelope Two sounds on one 8k chip First 4k is Claps second 4k is Tamborine Two sounds on one 8k chip First 4k types Channel Standard Voice EPROMs Tuning Range Notes 1 Bass 2732 7 7kHz 18kHz 2 Snare 1 2 2764 8 6kHz 22kHz Rimshot 1 2 2764 12kHz 22kHz 3 Tom 1 2764 2 6kHz 13kHz Tom 2 2 3kHz 13kHz pitches 4 Crash cymbal 4 x 2764 4kHz 25kHz Ride cymbal 4 x 2764 5 5kHz 25kHz 5 Closed Hi Hat 2764 8 3kHz 16kHz Open Hi Hat 6 Claps 1 22764 4kHz 14kHz Tamborine 1 2 2764 4kHz 14kHz Cowbell 1 2 2764 5kHz 25kHz Cabasa 1 2 2764 4kHz 14kHz is Cowbell second 4k is Cabasa Drumtraks Sound Chip Layout Ride 2 Crash 1 Crash 4 iCrash 2 Crash 3 Figure 12 S C Drumtraks Prommer User s Guide 64 Appendix 1 Examples SIMMONS DRUM MACHINES SIMMONS SDS 1 SIMMONS SDS 9 Prommer User s Guide 65 All Simmons drums that use digital drum sounds EPROMs use 8 Bit Linear data format At the date of this writing the following Simmons machines have actually been tested at Oberheim for compatibility with the Prommer The SDS 1 is a dru
25. User s Guide will try to explain how the Prommer can help you do that Basically the process of creating a new drum machine sound is very simple sample a sound with the Prommer burn an EPROM and put the EPROM in the drum machine However there are some complications to this process You may want to modify the sound before burning an EPROM or you may want to put two sounds on one EPROM You may want to tailor the sound for a particular type of drum machine voice circuit or you might even need to modify the drum machine voice configuration to match the desired drum sound If you own a drum machine other than an Oberheim you need to find out whether or not it uses individually replaceable sound chips what sort of data format is used and what the capacities of the sound chips are If your machine does not use individual sound chips that are pin compatible with any of the PROMs listed in appendix 2 you will not be able to use the Prommer to make new sound chips The Prommer is also limited to programming only 8 bit data formats companded or linear If your machine uses 8 bit linear format see the chapter on EPROMs for information on how to burn a chip in linear format All Oberheim drum machines use companded format data f you own a DX or DMX see the tables in this section for information on suggested sample rates and EPROM capacities for different drum voices 1 Sampling asound If you are going to record a live sound with a microph
26. X status byte and the checksum itself Each packet contains exactly 120 data bytes any unused bytes in the last packet are filled with zeros Each word of data is transmitted in two s complement linear format left justified in 2 3 or 4 bytes 7 bits per byte The number of bytes per word depends on the Sample Format described in the Sample Header 11110000 FOH System exclusive status byte 01111110 7EH Universal ID number Oddddddd Channel number 00000010 02H Packet command byte Oddddddd Running packet count current packet number Oddddddd 120 data bytes Oddddddd Checksum of previous 124 bytes 11110111 F7H EOX PROMMER REMOTE KEY SYSTEM EXCLUSIVE FORMAT received 11110000 System exclusive status byte 00010000 Oberheim ID number 00000101 Prommer ID number 00000010 Command byte Key stroke s follow Oddddddd 1 15 Data bytes Key codes see note 8 DRE Allow time for Prommer to empty key queue Oddddddd before sending more key code data bytes 11110111 F7H EOX End system exclusive data Note 1 nnnn Basic Channel 1 0000 Channel 1 0001 Channel 2 etc Note 2 kkkkkkk Note number Note 3 xxxx Don t care Note 4 ccccccc Controller number Note 5 vvvvvvv Value Note 6 dddd Data Note 7 pppp Program or block number 1 Prommer User s Guide Appendix 3 MIDI Specification 83 Note 8 Table of key codes 00H 0 02H 2 04H 4 O6H 6 08H 8 OAH OCH Left Arrow lt OEH Rig
27. Zones F Zone limits G Pitch bend range H Velocity Pressure J Program change enable K System exclusive dump one block L System exclusive dump all blocks M Universal sample dump N Universal sample dump request O Receive data P Transmit data Q Receive Transmit example 10 Miscellaneous Information A Software Version B Battery backup system C Test programs D Bytes amp Samples 11 Function Summary 35 39 43 51 55 Table of Contents Prommer User s Guide 6 Appendix 1 Application examples A EPROMs and Drum Machines B Using MIDI Zones Appendix 2 PROM cross reference Appendix 3 Prommer MIDI specification Appendix 4 Warranty 59 67 71 77 85 Table of Contents Chapter 1 INTRODUCTION This guide is intended to describe the operation and general use of the Oberheim Prommer a powerful and versatile tool for the modern musician The first chapters will describe the basic operation of all functions and the appendices will provide information on some specific applications Although the Prommer was designed to be very versatile and easy to use it is still a complex instrument and will require some learning on the user s part in order to use it properly Please read this manual carefully and keep it with the Prommer for future reference WHAT DOES IT DO SAMPLES SOUNDS BURNS PROMS The Prommer is a digital audio sampling device that will convert an audio si
28. andom size steps What happens is that the data in memory is scanned until the loop address reaches the next audio zero crossing that is the point where the audio signal in memory changes from positive to negative or from negative to positive This is done to make it easier to set smooth sounding loop points Note If the current block is empty and there are no zero crossings when you use the arrows the loop point will jump to the maximum or the minimum address offset for the block Positive part of signal Zero crossing a Negative part of signal Zero crossing Figure 3 Zero Crossings GUIDELINES FOR SETTING LOOP POINTS Prommer User s Guide It will probably take some practice and patience and a good sample in order to get a good sounding loop With some sounds it is just not possible to find any good loop points For example a sound that continually increases or decreases in pitch or volume will not loop smoothly As the playback switches from the end point of the loop back to the beginning you will hear a sudden change in the pitch or loudness However a sound with even a small amount of sustained timbre can be looped successfully if you find the right location for the loop points If you want a sound that will stop quickly after releasing the PLAY button set both the loop start and end points near the end of the block If you want a sound to have a long release set the loop points near the beginning or middle of
29. as several sound modification features which change the data stored in memory ENVELOPING A SOUND One of these is the envelope function which will modulate the current block with a decay envelope Suppose you have recorded a drum sound and there is a sudden cut off of the sound at the end of the block You can use the envelope function to make the cut off more gradual Press the ENVELOPE button to see the display 2 ENVELOPE Pressing the EXECUTE button now will modify the currrent block However you will probably want to set the envelope parameters before you go on ENVELOPE DECAY PARAMETERS Press the PARAMETERS button now to set the decay time DECAY TIME 33 Pressing the PARAMETERS button one more time will display the decay start point START PT 0 100 The number pad and arrows may be used to change the envelope parameters Press the ENVELOPE button again to go back to the envelope display The decay of the envelope can be described as a linear decay from the specified start point to the end of the current block The start point is specified as a fraction of the length of the current block 0 100 means that the envelope will start at the beginning of the sound 99 100 means that it will start almost at the end of the sound A low value for the decay time will give a fast cutoff and a high value will provide a long gradual envelope Applying an envelope to a block two or more times increases the effect and makes the
30. at address 0 with length 32k and block 3 at address 32k with length 32k Select block 2 and load the data from the EPROM labelled part 1 of 2 Select block 3 and load part 2 of 2 Connect the Prommer MIDI Out to the Matrix 12 MIDI In Make sure the synthesizer is ready to receive system exclusive patch data and then select block 1 as the current block on the Prommer Select the TRANSMIT DATA function and press EXECUTE The Prommer then will read the first two bytes of the current block to find out how many bytes of data to transmit and then will transmit the data over MIDI to the synthesizer exactly as it was originally received Note The Prommer does not save any timing information with received data and will retransmit it as fast as possible To avoid some of the problems this might cause in other machines a 20 millisecond pause is inserted after every EOX F7H byte that is encountered during transmission This gives the receiving machine time to do any necessary computations between multiple system exclusive messages MIDI Chapter 10 MISCELLANEOUS INFORMATION SOFTWARE REVISION NUMBER To display the current version of software that is installed in your Prommer immediately after turning on the power press and hold the 3 5 and 7 buttons BATTERY BACKUP MEMORY The random access memory RAM in the Prommer is powered by a lithium battery when the AC power is off So whatever sounds were in the Prommer when y
31. ation may also be used to control volume level or filter frequency Press the BEND RANGE button one more time PRESSURE OFF Use the arrows or the button to select the pressure destination OFF VCA or VCF Both Channel Pressure and Polyphonic Key Pressure are recognized and if both are transmitted by the controller the Prommer will try to respond to both types If possible enable only one type of pressure at a time on the transmitter REMOTE BLOCK SELECTION The program patch selection controls on a MIDI controller may be used to select Prommer User s Guide 46 the current block of the Prommer Press the BEND RANGE button again PROG CHANGE OFF Use the arrows or the button to turn the program change enable ON or OFF When program change is on selecting a program number on the controller will select the block with the same number on the Prommer Numbers higher than sixteen will set the block by modulo 16 program 17 selects block 1 program 18 selects block 2 etc MIDI MIDI DATA TRANSFER MIDI may be used in various ways to transfer sound data between machines using MIDI s system exclusive feature The Prommer supports two different system exclusive formats used for transferring sounds The first is used only for transferring sounds between two Oberheim Prommers and transfers all parameters and sound data associated with a block The other format is a universal type of sample dump based on a proposed stan
32. back rate for the current block including the set transposition Higher or lower MIDI notes will play the sound at a chromatically higher or lower pitch respectively Note The Prommer can t actually play data at sample rates faster than 32kHz but appears to do so by sampling at a lower rate and playing only every other byte of the sound or every fourth byte or eighth byte etc This may cause an unusual change in the timbre of some sounds especially sounds with large amounts of high frequency such as cymbals FINE TUNING PLAYBACK You can also make fine tuning adjustments in the playback of a sound Press the TRANSPOSE button again FINE TUNE 0 There is a fine tune value associated with each block but the current block number is not shown in the Fine Tune display The range of fine tune values is from 127 to 127 This range covers approximately two semitones so a fine tune value of 127 is equivalent to one semitone of up transposition Use the number pad or the arrows to set the fine tune OUTPUT FILTER CONTROL The Prommer has a voltage controlled low pass filter in its playback output stage and the frequency of the filter normally tracks the playback rate to reduce sampling noise but for special effects you can set the filter frequency to a fixed point Press the TRANSPOSE button again 1 FILTER TRACK By using the arrows or the number pad you can enter a value between 1 and 255 for the filter frequency for the c
33. becomes the current block and is played This mode may be used to assign different blocks to different areas of the keyboard or even to single MIDI note numbers BLOCK CHAN MODE Block equals channel mode uses the received MIDI channel number to select the current block The basic MIDI channel should be set to OMNI in order to use this mode VELO ZONE MODE Velocity zone mode is similar to MIDI zone mode except the zone limits are tested against the note on velocity rather than the note on number so the block is changed according to the velocity of a note ZONES Each block may be assigned to a particular range of note numbers or velocity values This range is called a zone and is defined by its upper and lower limits To view the zone limits for the current block press the PARAMETERS button now 1 LOWER LIM 0 Continue pressing the PARAMETERS button to switch between upper and lower limits 1 UPPER LIM 127 The arrows may be used to change the current block displayed at the left The number pad may be used to set the limit value The CLEAR button will reset the limit to a default value 0 for lower limits 127 for upper limits Press the MIDI MODE button again to get back to the mode display The limits may also be set with an external MIDI keyboard connected to the Prommer Press and hold the PARAMETERS button so that the display shows the limit you want to set and then press a key on the keyboard The limit w
34. cover under Warranty an apparent malfunction that is determined to be in fact user error or the owner s inability to use the product Oberheim will not cover under Warranty an apparent malfunction that is inaccurately or inadequately described by the owner to the Service Center at the time of repair THE DURATION OF ANY OTHER WARRANTIES WHETHER IMPLIED OR EXPRESS INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTY OF MERCHANTABILITY IS LIMITED TO THE DURATION OF THE EXPRESS WARRANTY HEREIN Oberheim hereby excludes incidental and consequential damages including but not limited to 1 Loss of time 2 Inconvenience 3 Delay in performance of the Warranty 4 The loss of use of the product 5 Commercial loss 6 Breach of any express or implied warranty including the Implied Warranty of Merchantability applicable to this product Oberheim shall not be liable for damage or loss resulting from the negligent or intentional acts of the shipper or his contract affiliates The owner of the product should contact the shipper for proper claims procedures in the event of damage or loss resulting from shipment IN ADDA W WV I ARRANTY SERVICE If you have reason to believe that your Oberheim product is malfunctioning or otherwise not operating properly do the following CONTACT YOUR NEAREST ECC OBERHEIM SERVICE CENTER Telephone them as soon as the problem is discovered Be prepared to discuss the problem as comp
35. dard that transfers sound data in linear format and includes only the following parameters sample number sample rate sample length loop start address loop end address and loop type PROMMER SOUND DUMP Prommer User s Guide 47 The Prommer sound transfer uses a single MIDI cable in an open loop system To transfer a sound from one Prommer to another connect the MIDI cable from MIDI Out of the sending unit to MIDI In of the receiving unit Press the BLOCK DUMP button 1 SYSTEMX DUMP The number on the left is the current block which is the block that will be transmitted in Prommer system exclusive format when you press EXECUTE The dump will transfer all data associated with the current block including sound data block number block start address and length loop start and end points zone limits sample rate playback mode transpose fine tune filter frequency and protect emphasis and MIDI pitch disable status Press EXECUTE to start the transmission The display should read STOP TO CANCEL Pressing the STOP button will interrupt the data transfer The receiving Prommer will automatically accept the data as it comes in unless the current block is protected or a recording is in progress There is no interruption in regular operation while the data is being received except that if a sound is playing you will hear it slow down considerably during reception You can transmit all 16 blocks in Prommer System Exclusive fo
36. dd Sample Number LSB Block number Oddddddd Sample Number MSB zero transmitted ignored on reception 11110111 F7H EOX ACKNOWLEDGE ACK transmitted and received Acknowledge is used for handshaking in a closed loop system to signal acceptance of the header or a packet of information 11110000 FOH System exclusive status byte 01111110 7EH Universal ID number Oddddddd Channel number 01111111 7FH ACK command byte Oddddddd Packet number Packet number that is being acknowle 11110111 F7H EOX NOT ACKNOWLEDGED NAK transmitted and received NAK is used to signal an that an error in reception has occured and that the indicated packet should be retransmitted 11110000 FOH System exclusive status byte 01111110 7EH Universal ID number Oddddddd Channel number 01111110 7EH NAK command byte Oddddddd Packet number 11110111 F7H EOX CANCEL CAN transmitted and received Cancels a transmission in progress 11110000 FOH System exclusive status byte 01111110 7EH Universal ID number Oddddddd Channel number 01111101 7DH Cancel command byte Oddddddd Packet number 11110111 F7H EOX Prommer User s Guide Appendix 3 MIDI Specification 81 WAIT Received Causes the Prommer to suspend transmission until an ACK is received 11110000 FOH 01111110 7EH Oddddddd 01111100 7CH Oddddddd 11110111 F7H System exclusive status byte Universal ID number Channel number Wait command byte Pack
37. de Appendix 1 Examples 70 Oberheim Prommer EPROM Cross Reference Prommer User s Guide Appendix 2 EPROM Cross Reference 71 EPROM COMPATIBILITY 2K EPROMs 2716 4K EPROMS 2732 Programming of 2716 types is not supported by the Prommer however 2716s may be loaded into memory by setting the Prommer for a 2732 or 2732A PROM type Select a 2k length block and use the LOAD DATA or LOAD LINEAR function 4K EPROMs are used in the Oberheim DMX Linn Drum S C I Drumtraks 8K EPROMS 2764 8K EPROMs are used in Oberheim DMX Oberheim DX Oberheim Stretch Linn 9000 S C I Drumtraks Simmons SDS 1 Linear format data Simmons SDS 9 Linear format data 16K EPROMS 27128 16K EPROMs are used in Simmons SDS 1 Linear format data Simmons SDS 9 Linear format data 32K EPROMS 27256 32K EPROMSs are used in Oberheim DX cymbal serial H45001 and later Oberheim Stretch cymbal EPROM PROGRAMMING INFORMATION EPROM type Capacity Program Voltage Algorithm 2732 4k 25 Slow 2732A 4k 21 Slow 2764 8k 21 Fast 2764A 8k 12 5 Fast 27128 16k 21 Fast 27128A 16k 12 5 Fast 27256 32k 12 5 Fast 27256D 32k 21 Fast 27512 64k 12 5 Fast Am9864 8k 5 Fast 2864A 8k 5 Slow 4k PROMS Manufacturer Part Type Select PROM type Prommer User s Guide Appendix 2 72 EPROM Cross Reference AMD AM2732 EPROM 2732 AM2732A EPROM 2732A Fujitsu MBM2732A EPROM 2732A MBM27C32A EPROM 2732A MBM2732 EPROM
38. decay exponential rather than linear See Figure 8 for some examples of the effects of envelopes on sounds HOW TO GET AN ATTACK ENVELOPE In addition to a decay envelope you can get the effect of an attack envelope in the following way First reverse the block then apply a decay envelope and then reverse the block a second time TECHNICAL NOTE ABOUT DECAY TIME For the technically inclined reader the decay time can be defined as follows D decay time X starts at 255 The current address is set to the start point and is incremented by one until it reaches the end of the block while the linear equivalent value of the sound data at the current address is multiplied by X 256 and every D bytes X is decremented by one until it reaches zero Prommer User s Guide Sound Modifications 39 PICTURE HERE Figure 8 Envelope example Prommer User s Guide Sound Modifications 40 MIXING SOUNDS IN MEMORY MIX RATIO RING MODULATION Prommer User s Guide 41 The sounds in two blocks may be mixed together into one block Press the MIX BLOCKS button 1 MIX WITH 2 The current block is displayed at the left and the secondary block is shown at the right You can change the secondary block with the number pad or the arrows Pressing EXECUTE now will mix the current block with the secondary block at the currently set mix ratio see below and store the result in the current block The two blocks can be mixed in equal parts or a diff
39. don t take place in real time but actually change the data in memory so that the change is permanent and the modified sound can be burned onto a PROM Data in memory may also be examined and modified numerically one byte at a time The Prommer has an almost endless variety of possible applications including but not limited to sampling sounds for drum machines copying EPROMs transferring multiple EPROM sounds to a single EPROM drum machine sound editing transferring sounds from linear format drum machines to companded format machines and vice versa playing sounds with a keyboard and MIDI data storage Introduction Chapter 2 GETTING STARTED This chapter is designed to be a step by step tutorial look at the Prommer for the new user It is not intended to cover all the features of the Prommer but rather to familiarize the user with the basic controls and the process of recording and playing back a sound Line level input AMPLIFIER or MIKER M IN OUT Headphones or speaker Line Qut Mic In Oberheim Figure 1 Basic setup ABOUT THE SWITCHES The switches that control the Prommer are arranged in three main groups the function switches which are arranged in a rectangular pattern in the center of the front panel the number pad and data entry switches on the right side of the panel and the three raised pushbuttons on the lower part of the front panel PLAY RECORD and EXECUTE
40. e Description of sound or data Performance data Sample rate Transpose Filter setting Loop mode Loop start Notes Programmer s name Prommer User s Guide EPROM type EPROM type Data offset Fine tune Emphasis Loop end Creation date Data offset Fine tune Emphasis Loop end Creation date EPROM Log
41. e Off velocity Ignored 1001nnnn Okkkkkkk Note On Event Ovvvvvvv Note On velocity vvvvvvv 0 Note Off 1010nnnn Okkkkkkk Polyphonic Key Pressure Ovvvvvvv Pressure value 1011nnnn Occccccc Control change see Channel Mode msgs below OXXXXXXX Control value ignored 1100nnnn Oxxxpppp Program Change pppp Block number 1 1101nnnn JOvvvvvvv Channel Pressure vvvvvvv Pressure value 1110nnnn Ovvvvvvv Pitch Bend Change LSB Ovvvvvvv Pitch Bend Change MSB RECOGNIZED RECEIVE DATA CHANNEL MODE MESSAGES 1011nnnn 01111011 All Notes Off command 00000000 1011nnnn 01111100 OMNI mode off Basic channel reverts to last S 00000000 All Notes Off 1011nnnn 01111101 OMNI mode on 00000000 All notes off Prommer User s Guide Appendix 3 MIDI Specification 78 SYSTEM EXCLUSIVE MESSAGES PROMMER SYSTEM EXCLUSIVE SOUND DUMP REQUEST FORMAT Received MIDI Data Description 11110000 System exclusive status byte 00010000 Oberheim ID number 00000101 Prommer ID number 00000000 Command byte 1 block dump request 0000pppp Command byte 2 requested block number 1 11110111 EOX End system exclusive data PROMMER SOUND DUMP FORMAT transmitted and received 11110000 System exclusive status byte 00010000 Oberheim ID number 00000101 Prommer ID number 00000001 Single block sound transfer code 0000pppp Transmitted block number 1 0 15 Note Data bytes are sent as four bit nybbles most significant nybbl
42. e on the keyboard will play the sound in the current block at a pitch relative to the note played based on the current sample rate transpose and fine tune settings of the block By carefully setting the zone limits for each block you can select a different block when a note is played that falls outside the zone limits for the current block For example suppose you have three sounds in the Prommer in blocks 1 3 and 5 and you want to play each of these sounds in a different range depending on what part of the keyboard you play see the picture below MIDI NOTES MIDI NOTES MID NOTES 36 54 BLOCK 5 25 78 BLOCK 3 79 96 BLOCK 1 Figurel3 MIDI Zone Example Prommer User s Guide 67 To do this you must set the zone limits for each of the blocks involved and also in order to keep the other blocks from playing you must set the upper and lower limits of all unused blocks to zero For Block 1 set the lower limit to 79 and the upper limit to 127 For Block 3 set the lower limit to 55 and the upper limit to 78 and for Block 5 set the lower limit to 0 and the upper limit to 54 Now select Block 1 and press middle C on the keyboard MIDI note 60 Notice that the block number on the display changes to 3 and you hear Block 3 play Appendix 1 Examples SIMULATING A MIDI Press keys in other parts of the keyboard and see what happens notes on the lower part of the keyboard play Block 5 notes in the
43. e sent first MSN also identified by bit 6 1 Block Parameters 0100dddd 0000dddd Start address MSB 0100dddd 0000dddd Start address LSB 0100dddd 0000dddd Block length MSB 0100dddd 0000dddd Block length LSB 0100dddd 0000dddd Loop start point address offset MSB 0100dddd 0000dddd Loop start point address offset LSB 0100dddd 0000dddd Loop end point address offset MSB 0100dddd 0000dddd Loop end point address offset LSB 0100dddd 0000dddd Zone upper limit 0100dddd 0000dddd Zone lower limit 0100dddd 0000dddd Miscellaneous status Bit 7 Data protected 1 unprotected 0 Bit 6 Pre emphasis on 1 off 0 Bit 5 2 undefined Bit1 0 00 sample rate 32kHz 01 sample rate 24kHz 10 sample rate 16kHz 11 sample rate 12kHz 0100dddd 0000dddd Playback mode Prommer User s Guide Appendix 3 MIDI Specification 79 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd 0100dddd 0000dddd Sound data 0100dddd 0000dddd 0100dddd 0000dddd 11110111 Bit 7 Gated play mode Bit 6 Loop play mode Bit5 MIDI pitch disable Bit4 O undefined Playback pitch transpose amount Range 48 semitones Playback pitch fine tune value Range 127 to 127 Playback filter frequency control 0 Tracking filter 1 255 fixed frequency Future expansion Future expansion Future expansion Future expansion
44. egin and the display will read PROGRAMMING 31 The number in the display is a count down number provided to indicate the time remaining before the programming process is complete The number will start at different values depending on what size EPROM you are using To avoid accidental destruction of data on a previously programmed EPROM if the EPROM is not blank at the time programming starts the display will read ARE YOU SURE If you wish to continue press EXECUTE a second time If not press the STOP button to cancel the program command After all the data has been programmed it will be verified one more time and if all the data has been programmed correctly the display will read OK You can press the STOP button at any time to interrupt the programming process but if you want to restart you must do so from the beginning BLOCK EPROM LIMITS Prommer User s Guide If the current block is not equal in size to the EPROM being used the programming process wil stop as soon as either one reaches its limit For example if you program a 4k block onto an 8k EPROM the programming process will stop after the first 4k bytes have been programmed leaving the second half of the EPROM blank or unchanged Or if you program a 16k block onto an 8k EPROM only the first half of the block will be programmed EPROMs 28 IN CASE OF A PROGRAMMING ERROR If an error occurs during the programming process an error message will show
45. erent mix ratio may be set Press PARAMETERS to display the current mixing ratio MIX RATIO 3 4 Use the number pad or the arrows to change the ratio numerator The numerator of the fraction 3 in this example refers to the amount of the CURRENT block to mix and the denominator 4 in this example refers to the amount of the SECONDARY block to mix Notice that the denominator always equals four The numerator may range from zero to sixteen If you mix two blocks at a mix ratio of 0 4 the secondary block will be copied into the current block at half its original volume level A mix ratio of 4 4 will mix equal parts of both blocks Press the MIX BLOCKS button again until you see the RING MOD display 1 RING MOD 2 The ring modulate function is like the MIX function except instead of summing two blocks together the blocks are multiplied together and then scaled down causing an effect known as Ring Modulation If you press EXECUTE now the current block will be multiplied together with the secondary block and the result stored in the current block The current mix ratio also applies to blocks being ring modulated and can be set by pressing the PARAMETERS button as described above Sound Modifications STRETCHING AND SQUASHING Prommer User s Guide 42 You can double the length of the current block with the stretch function Press the STRETCH button 2 STRETCH When you press EXECUTE this function will stretch the current
46. et the Key Pitch Enable for all blocks OFF so all drum sounds will play at their normal pitches Now playing any key below MIDI note 36 or above 47 will have no effect and every key between 36 and 47 will play a different block OVERLAPPING ZONES UNDEFINED ZONES Prommer User s Guide 68 Zones may overlap also Suppose you have two sounds in the Prommer that you want to play from the keyboard and the limits for one are set to 37 96 and the other to 36 95 With all other block zone limits set to zero playing a note anywhere on the keyboard between notes 37 and 95 will play whichever of the two blocks is currently selected You can then switch from one block to the other by playing the highest key 96 or the lowest key 36 Playing note 36 while in the block with the 37 96 limits will switch to the next available block in this case the one with 36 95 limits Playing note 96 then will select the other block If there are any holes in the arrangement of zones that is a place on the keyboard that has no blocks assigned to it and you play a note in this range the Prommer will not play any block Appendix 1 Examples MIDI VELOCITY ZONE MODE Prommer User s Guide 69 When the MIDI mode is changed to VELO ZONE MODE all the zone limits that were set for ranges of the keyboard now will apply to ranges of MIDI Note On velocities The permissible range of MIDI velocities is the same as for MIDI notes 0 127 If you
47. et number EOX SAMPLE DUMP HEADER transmitted and received Precedes an actual sample dump 11110000 FOH 01111110 7EH Oddddddd on 00000001 01H Oddddddd Oddddddd 000ddddd 28 Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd Oddddddd 0000000d Oor1 backward forward 11110111 F7H Prommer User s Guide Appendix 3 82 System exclusive status byte Universal ID number Channel number Currently set to Basic Channel transmission ignored on reception Sample Dump Header command byte Sample Number LSB Sample Number MSB Sample Format Number of significant bits 8 Sample period in nanoseconds LSB sample period sample period MSB Sample length in words LSB sample length sample length MSB Sustain Loop Start Point word number LSB sustain loop start point sustain loop start point MSB Sustain Loop End Point word number LSB sustain loop end point sustain loop end point MSB Loop Type 0 forward only 1 EOX MIDI Specification DATA PACKET transmitted and received As many packets as are necessary to send the entire sample are transmitted Packet numbers start at zero and increment by one After packet numbers reach 7FH they start again at zero The checksum is the exclusive OR of all bytes in the packet with the exception of the FOH sytem exclusive status byte the EO
48. gnal into digital form and store the digitized signal in its memory The Prommer will record at a rate of up to 32 000 samples per second and has a maximum memory capacity of 65 536 samples This means that you can record a sound that is about two seconds long at the fastest sampling rate Longer sounds may be sampled by using a slower sampling rate at a reduced audio bandwidth One primary application of the Prommer is sampling drum sounds and other percussive sound effects There is an input for line level signals with switchable sensitivity of 4 dB or 10 dB and a balanced input for a low impedance microphone A peak reading LED meter allows monitoring the level of the input signal in order to set the correct recording level The Prommer is also a PROM programmer It can program burn most popular types of EPROMS PROMS and EEPROMS This means that you can make your own custom sound chips to use in your Oberheim DMX or DX digital drum machine The Prommer will also program chips for other brands of drum machines that is any drum machine that uses individual sound chips with eight bit companded or linear data format PLAYS BACK SOUNDS The Prommer can play back sounds in memory over a twelve octave pitch range when used with a MIDI controller with control over transposition and fine tuning Sounds may be looped to add sustain with adjustable loop points An external trigger may be used to play a sound and alow pass filter at the outp
49. h of the current block press the PARAMETERS button again and the display will show you the length 1 LENGTH 8K You can change the block length by using the number pad or the arrows As with the block address you can also define the length in high resolution mode by pressing the button 1 LENGTH 8192 Pressing the button again will take you back to the 1k increment length display Block lengths are limited by the end of the Prommer s memory For example a block at address 62k would have a maximum length of 2k There is also a minimum block length of 16 bytes for recording and playing back sounds For any other purpose the minimum block length is 1 If you wish to have two blocks be consecutive in memory just add the length of the first block to its address to get the address of the second block Example to have two consecutive 8k blocks where block 1 starts at address 16k block 2 should start at address 24k See figure 2 on the next page for more information about blocks Press the PARAMETERS button one more time from the Block Length display and the display will show the protect status of the current block 1 UNPROTECTED By pressing the button you can toggle the protect status between PROTECTED and UNPROTECTED The number pad and arrows can be used at this point to change the current block number which is displayed at the left This enables you to quickly check the status of all blocks When a b
50. he Oberheim EPROM in the socket on the front panel Be sure to raise the lever first orient the EPROM with its notch toward the rear of the Prommer align all the pins correctly and press the lever down to secure it b Select the correct EPROM type Press the button labelled PROM SELECT and use the right arrow button gt to step through the choices of EPROMs until the display reads PROM 27256 32K c Load setup parameters from the EPROM Press the LOAD DATA button three times until the display reads LOAD SETUP d Press EXECUTE to load a new set of block parameters from the chip e Press the LOAD button again until the display reads x LOAD DATA where x is any number f Use the number pad to enter the number sixteen Press 1 and then press 6 This selects block number sixteen g Press EXECUTE The EPROM data will be loaded into memory h Play some sounds Select blocks 1 2 3 or 4 and play the sounds These sounds are included to demonstrated some of the possible uses of the Prommer i Run the demo program Select block 10 Press the button labelled RUN PROGRAM Now press and hold the PARAMETERS button and then press the EXECUTE button The program loaded from the Oberheim demonstration EPROM which is now residing in block 10 is now running You should see a message scrolling across the display Be sure you use the RUN PROGRAM function ONLY when a block containing a valid PROGRAM is selected
51. he second half of an EPROM While the display is showing the PROM type press the PARAMETERS button to display the PROM offset PROM OFFSET 4K Use the number pad or the arrows to set the offset in 1k increments Be sure to reset the offset_to zero for normal operation Note the PROM offset is always reset to zero when the AC power is turned off BLANK EPROM VERIFICATION ERASING EPROMS You can test an EPROM to verify the fact that is blank Press the CHECK ERASURE button CHECK ERASURE This function will test the EPROM in the socket on the front panel to see if all bits are equal to 1 ready to be programmed Press the EXECUTE button to check erasure If the EPROM is blank the display will read OK after a moment If the EPROM is not blank the display will show the address of the first non blank location ERROR AT 1009 EPROMs may be erased by exposing them to a source of ultraviolet light If you WHAT IS BLANK Prommer User s Guide use EPROMs with your Prommer you will most likely need an EPROM eraser Most EPROMs can be erased with 5 to 30 minutes of exposure in an EPROM eraser Be sure to follow the manufacturer s instructions when using an eraser and DO NOT expose your eyes to ultraviolet light It is also possible to erase an EPROM by exposing it to sunlight since the sun produces ultraviolet light It may be necessary to leave an EPROM out in the sun for a day or more depending on the weather to complete
52. ht Arrow gt 10H External Trigger display 12H Transpose display 14H Select Block display 16H PARAMETERS 18H Stretch display 1AH Envelope display 1CH Copy Block display 1EH MIDI Bend Range display 20H Run Program display 22H Program PROM display 24H Select PROM display 26H MIDI Block Dump display 28H Null 2AH PROM Offset display 2CH Transmit Data display 2EH Erase Block display 30H Examine RAM display 32H MIDI Velocity display 34H Emphasis display 36H Loop End display 38H Mix Ratio display 3AH Bit Manipulation display Threshold 3CH Envelope Decay Rate Point 3EH Data Display Mode 40H MIDI Program Change 42H Fine Tune display 44H Block Address display 46H Zone Lower Limit display 48H Load Setup display 4AH MIDI Pressure display 4CH Universal MIDI Dump 4EH Block Address whole num num 50H MIDI Pitch enable display disp 52H Request Universal Dump 7FH Prommer User s Guide Appendix 3 84 01H 03H 05H 07H 09H OBH 0DH OFH 11H 13H 15H 17H 19H 1BH 1DH 1FH 21H 23H 25H 27H 29H 2BH 2DH 2FH 31H 33H 35H 37H 39H 3BH 3DH 3FH 41H 43H 45H 47H 49H 4BH 4DH 4FH 51H ONO CLEAR PLAY Play Mode display Sample Rate display EXECUTE RECORD Mix Blocks display Reverse display MIDI Mode display STOP Load Data display Verify Erasure display MIDI Channel display Receive MIDI display Compare Data display Program Linear display Filter Frequency display Erase
53. ide tuning range Appendix 1 Examples DX and DMX standard EPROM types DX Note DX voices have a wider tuning range than most DMX voices Voice EPROM Capacity Sample rate Comments DX Bass 2764 8k 24kHz 3 volume levels envelope DX Snare 2764 8k 32kHz 3 volume levels DX Hi hat 2764 8k 24kHz Envelope on 1 amp 2 DX Tom 2764 8k 12kHz 32kHz 3 Pitches DX Cymbal DX serial D4441 amp lower 2764 x4 32k 24kHz Uses 4 EPROMS for 32k total 3 volume levels DX Cymbal DX serial H45001 amp higher 27256 x2 64k 24kHz Uses two 32k ROMs 2 sounds 1 amp 2 two volume levels DX Perc 2764 8k 24kHz 2 sounds on 1 EPROM 4k each DMX DMX Bass 2732 4k 24kHz 3 volume levels envelope DMX Snare 2732 4k 32kHz 3 volume levels DMX Hi hat 2732 4k 24kHz Envelope on 1 amp 2 DMX Toms old type 2732 4k 12kHz 3 Pitches envelope DMX Toms MK II Voice 2764 8k 12kHz Envelope jumpers select one or two EPROMS 2732 or 2764 DMX Cymbal 2 2732 x8 32k 24kHz 8 EPROMSs for two16k sounds DMX Cymbal 3 2764 x8 64k 24kHz 8 EPROMs for two 32k sounds DMX Perc1 2732 4k 24kHz 2 sounds on one EPROM 2k each DMX Perc2 2732 4k 16kHz 2 sounds on one EPROM 2k each Note Voices with a hardware envelope are not suitable for most sounds sampled with the Prommer The envelope will cut off about half of the sound making only very percussive sounds usable Prommer User s Guide Appendix 1 Examples 61 Linn 9000 Note All Linn 9000
54. ike EPROMs are multiples of 1024 a result of the binary numbering system used by most computers So to make a sound fit exactly on an EPROM its block length needs to be an exact multiple of 1024 and 2 4 8 etc The address of a block is a number describing where the block starts in memory To define the address of a block press the PARAMETERS button from the SELECT BLOCK display The display should now show something like 1 ADDRESS 16K The number on the left of the display is the current block number and the number on the right is the currently selected starting address for the block shown in multiples of 1024 indicated by the letter K The range of addresses is from 0 to 63k or 0 to 65535 By using the number pad or the arrows you can change the block address Note that the address changes in increments of 1k If you want to define the address with high resolution press the button 1 ADDRESS 16384 The display will now show the address in whole number form and you can use the number pad or arrows to change it Press the button again and you will go back to viewing the address in 1k form Notice that if you have entered an address that is not an exact multiple of 1024 a dot will show on the display between the number and the K symbol to remind you Blocks BLOCK LENGTH BLOCK PROTECT Prommer User s Guide 14 The length of a block is the number of bytes samples in that block To define the lengt
55. ill now be set to the value of the key just pressed The range of limits is 0 to 127 which is also the range of MIDI notes If you want a block not to play by MIDI set both the upper and lower limits for that block to zero To set normal operation select MIDI zone mode and set the lower limits for all blocks to zero and set all upper limits to 127 This will enable all blocks to play via MIDI and the current block will not be changed by MIDI notes See appendix 1 for a few examples of the many ways to use MIDI zones PITCH BENDING Prommer User s Guide MIDI 45 The pitch bender on a MIDI controller can be used to control the playback pitch of a block Press the BEND RANGE button BEND RANGE 0 To enable the pitch lever pitch wheel use the arrows or number pad to enter a non zero value for the bend range Bend range is specified in semitones so a value of 12 will give one octave of bend up or down The maximum bend range is 36 three octaves MIDI VELOCITY AND PRESSURE ROUTING MIDI note on velocity may be used to control the loudness level or the filter frequency during playback To select adestination for MIDI velocity press the BEND RANGE button again VELOCITY VCF Use the arrows or the button to select velocity OFF VCA Voltage Controlled Amplifier or VCF Voltage Controlled Filter Increasing velocity will increase the volume level or raise the output filter frequency MIDI pressure after touch inform
56. in length the blocks must not overlap If you try to swap overlapping blocks you will see the error message BLOCKS OVERLAP When an error message appears press any key to return to normal operation Prommer User s Guide Block Functions 35 Prommer User s Guide Block Functions 36 ERASING A BLOCK You can erase the sound data in a block with the erase block function Press the COPY BLOCK button again 1 ERASE BLOCK At this point you may change the current block with the number pad or the arrows Press EXECUTE to erase the sound data memory in the current block all bytes equal to 0 Block parameters remain unchanged ERASING EVERYTHING You can erase all memory including all blocks and reset all parameters to their default values press COPY BLOCK again ERASE ALL If you are sure you want to erase everything press EXECUTE now REVERSING SOUNDS You can make a sound play backwards by reversing it To access the reverse function press the REVERSE button 2 REVERSE Pressing the EXECUTE button now will reverse the data in the current block displayed at the left You can return the sound to normal by reversing it once more NUMBER CRUNCHING Notice that when the Prommer is executing a function the display reads BUSY This means that it is busy making the calculations required to make the change in the data Since some of these functions require a considerable amount of number crunching
57. ing these test programs please refer to the Prommer Service Manual SAMPLES The term byte is used frequently in this guide and should be explained for those unfamiliar with computer teminology A byte is defined as a group of eight bits of information A bit is a binary digit that has only two possible values zero or one A byte has 256 2 to the 8th power possible values or combinations of ones and zeros Memory in the Prommer is arranged in bytes Each byte of memory can be located by a unique 16 bit address The range of addresses is from zero to 65535 2 to the 16th power possible addresses When a sound is sampled by the Prommer each sample one byte per sample is stored atanew memory address Each sample is coded into eight bits and the number stored as a byte represents an instantaneous voltage level corresponding to the input signal at the time the sample was taken Upon playback these numbers are read back out of memory and converted back into a voltage one at a time at a steady sample rate If you could look directly into a memory location at random you might see the following group of eight bits 10011100 This binary number could be interpreted in several different ways The decimal equivalent to this number is 152 in sign amp magnitude form it is 28 and in Hexadecimal it is equal to 9C All three interpretations are equally valid Miscellaneous Information COMPANDED DATA The Prommer stores samples in a so
58. is full unless you press STOP after the patch dump is complete If possible turn off active sensing and controllers before starting a patch dump to the Prommer When the dump is complete or the current block is full the display will show the number of bytes received Add two to this number to get the total number of bytes you need to save on EPROM s In the case of the Matrix 12 the display read OK 64207 BYTES Add 2 to get 64209 and divide this number by 1024 to see how many k of EPROM space will be needed This amount of data 62 7k will require a single 64k EPROM 27512 two 32k EPROMs 27256 or four 16k EPROMs 27128 etc Let s assume that you have two blank 27256 s handy and will use them to store your Matrix 12 patches Set up two more blocks in the Prommer Block 2 starting at address 0 with length 32k and Block 8 starting at address 32k with length 32k Set the EPROM type to 27256 and program block 2 into one of the EPROMs and label it Matrix 12 patches part 1 of 2 This EPROM now contains the first half of the patch data and the total number of bytes in the patch dump coded into its first wo bytes Now program block 3 into the other EPROM and label it Matrix 12 patches part 2 of 2 This EPROM contains the final part of the patch data To load the patches back into the synthesizer the process is basically reversed Set up three blocks in the Prommer Block 1 at address 0 with length 64k block 2
59. l without charge for parts or labor either repair or replace the defective part s If the Warranty cannot be verified the entire cost of the repair in parts and labor is the responsibility of the product s owner PRICES AND SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE WHAT IS COVERED Prommer User s Guide Appendix 4 85 Warranty ECC Oberheim warrants that it will make all necessary adjustments repairs or replacements at no cost to the original owner within the first 12 months from the purchase date if 1 The product fails to perform its specified functions due to failure of one or more of its components 2 The product fails to perform its specified functions due to defects in workmanship 3 The product is maintained and operated by the owner in strict accordance with the written instuctions for proper maintenance and use as specified in the Owner s Manual WHAT IS NOT COVERED Prommer User s Guide Appendix 4 86 Before purchasing and using the owner shall determine the suitability of the product for his her intended use and the owner assumes all risk and liability whatsoever in connection therewith Oberheim shall not be liable for any injury loss or damage direct or consequential arising out of the use or inability to use the product The Warranty provides only the benefits specified and does not cover defects or repairs needed as a result of acts beyond the control of Oberheim including but not limited
60. layback pitch or to trigger the sound with the pitch control turned off so the sound will always play at it s normal pitch regardless of which key is played When the keyboard pitch is enabled middle C MIDI note number 60 will play the sound in the current block at its normal pitch which is determined by the basic sample rate transpose and fine tune values for the current block and notes above or below middle C will play the sound at a correspondingly higher or lower pitch Press the MIDI CHANNEL button again to set the echo mode Prommer User s Guide 43 MIDI ECHO OFF Use the button to select one of three echo modes ON OFF or SPL x MIDI echo ON will take everything that is received at the MIDI IN connector and echo retransmit it through the MIDI OUT connector Echo OFF will not echo anything SPL is used as an abbreviation for spillover Use the number pad or arrows to change the spillover number MIDI Spillover echo will retransmit all information except note on messages A note on message is only retransmitted spilled over if a block is currently in the process of being played This feature will allow you to connect two or more Prommers in series and play them polyphonically from a MIDI keyboard To do this you need to set the spillover number for each unit in the chain to the number of units remaining down the chain from it The spillover number is used to determine how many note ons to echo while a n
61. left is the current block source and the number on the right is the destination block for the copy operation You can change the destination block number with the number pad or the arrows To change the source block you wil have to go to the SELECT BLOCK display and change the current block and then come back to the COPY BLOCK display This function will copy the data in the currrent block into the destination block when you press EXECUTE if the destination block is not protected Only the sound data is copied all parameters such as loop points transpose etc are unchanged in the destination block The two blocks must be equal in length you will get an error message if you try to copy to a block that is not the same size as the source NOT EQUAL SIZE If the two blocks involved in the copy operation overlap the overlapped part of the source block will be changed by the data that is copied into the secondary block EXCHANGING BLOCKS There is also a function that will exchange the contents of two blocks of memory If you press the COPY BLOCK button again the display will read 1 SWAP WITH 2 The number on the right the secondary block may be changed with the number pad or the arrows This swap function will exchange the contents of two blocks of equal length blocks 1 and 2 in this example As with copy the swap function only exchanges sound data all other block parameters are unchanged In addition to being equal
62. letely and accurately as possible A current roster of Authorized Service Centers is included with the Owner s Manual The Service Center will let you know when the repair can be scheduled the approximate number of days it will take to complete the repair and if the required parts are in stock or if they need to be ordered Take the failed unit to the Service Center along with the sales receipt as the Service Center will need to verify the Warranty If you have returned your Warranty Card the Warranty Verification Sticker affixed to the bottom panel of your unit is sufficient to prove warranty status The Service Center will then inspect the product and take the necessary steps to complete the repair If the product continues to malfunction or another problem different from the original problem occurs contact the service center IMMEDIATELY so that the problem can be resolved without delay or futher complications CONTACT YOUR ECC OBERHEIM DEALER Warranty STEP 3 Prommer User s Guide Appendix 4 88 If you feel that your problem has not been resolved contact the Oberheim Dealer where the product was purchased It will be most expedient if you discuss the matter personally with the salesperson who sold you the instrument By making the salesperson aware of your situation they will be in abetter position to assist you in getting the problem resolved CALL OR WRITE TO THE OBERHEIM FACTORY If you believe that the problem is still
63. ll have no effect EPROMs 31 EXAMPLES Programming EPROMs with Blocks of different sizes A reminder about block and EPROM sizes To see the length of the current block press the SELECT BLOCK button and then press PARAMETERS until the Length display appears To find the size of an EPROM press the PROM SELECT button and look at the EPROM size displayed at the far right If the PROM size is not displayed refer to the EPROM cross reference in appendix 2 or use the part number of the chip as a reference PROM manufacturers often refer to the size of PROMS in the device part number with the last digits indicating the number of kilobits of storage a kilobit is 1024 bits To find the number of kilobytes available divide this number by eight For example a 27256 contains 32k of data 256k divided by 8 32k So we can say that the size of a 27256 EPROM is 32k All references to block length and PROM size in this manual and in Prommer displays are in bytes EXAMPLE 1 EPROM SIZE z BLOCK LENGTH The simplest way to program a sound onto an EPROM is to start out with a sound in a block that is the same size length as the selected EPROM type For example if you have a 2764 8k EPROM and an 8k block simply program the EPROM directly from the block that contains your sound EXAMPLE 2 MULTI EPROM SOUNDS Prommer User s Guide Suppose you have a sound that uses 32k of memory in the Prommer and you want to put it in a DMX Cymbal 3
64. lock is protected the data in it normally cannot be changed or recorded over However if one block overlaps another changing the data in one will overwrite the data in the other whether it is protected or not For this reason it is important to understand the concept and be aware of all overlapping blocks Blocks figure 2 PICTURE Block examples goes here Prommer User s Guide Blocks 15 Prommer User s Guide Blocks 16 Chapter 4 SAMPLING SAMPLE RATE The SAMPLE RATE function sets the basic sampling rate for recording and playing a sound Ther Prommer has four possible recording sample rates 32kHz 24kHz 16kHz and 12kHz Each block is assigned its own sample rate To set the sample rate for the current block press the SAMPLE RATE button 1 RATE z 32KHZ The number on the left is the current block and the sample rate is shown on the right The sample rate may now be changed by using the arrow buttons The sample rate determines two things about a sample the audio bandwidth and the speed at which memory is filled during recording A high sample rate will give you a higher quality recording than a low sample rate but it will also use up memory faster For example you can record about five and a half seconds in 64k of memory at the lowest sample rate of 12kHz but increasing the sample rate to 32kHz gives you only about two seconds of record time for the same amount of memory Sample rate Block length bandwid
65. ly For this reason it is important to monitor the record level carefully before and during the recording process A good recording level should be around Odb on the LED peak meter Anything higher than about 3db will begin to overload the analog to digital converter and the signal will distort Sometimes this distortion may be just the thing to give a drum sound some extra punch but usually it is undesirable Before recording check the level by producing the sound you are going to record a few times and watching the meter Adjust the input level control until the meter reads about Odb or 3db at the loudest point If the level is too high the sound will be distorted by clipping and if too low the background noise may become more noticeable Although setting the record level with the meter is a good starting point the most reliable way to detect overload distortion is by listening to the output of the Prommer with Idle Bypass mode OFF The sound you will then hear is the same as that which will be recorded that is the signal that has been converted from analog to digital and then back to analog again If the sound coming out of the Prommer is distorted even at low levels the problem may be that the output level of the Prommer is too high for your amplifier Be sure that the Prommer is connected to a Line Level input 4 dBm Another possible cause of distortion is in the input section If the level of the device connected to the inp
66. ly erase it Remember to put an opaque label over the window of any EPROM that you plan to save to avoid accidental erasure As far as digital audio is concerned a blank EPROM is not the same as a silent one When a PROM or EPROM is new or erased each byte of memory is set to all ones 11111111 If you were to play a blank EPROM in a drum machine you would hear a loud thump If for some reason you want to program a part of an EPROM with a section of silence you should program that part with zeros don t just leave it blank EPROMs 27 COMPARING EPROMS WITH MEMORY Data on an EPROM may be compared with the data in the current block Press the CHECK ERASURE button again 1 COMPARE DATA Press EXECUTE to compare If the data in the current block doesn t match the data in the EPROM exactly an error message will be displayed PROGRAMMING EPROMS To program an EPROM press the PROGRAM PROM button and the display will read 1 PROGRAM PROM The number at the left shows the current block number which is the block that will be programmed onto the EPROM when you press EXECUTE The current block may be changed at this point by using the number pad or the arrows After having selected the correct EPROM type and the correct block be sure that your EPROM is secured correctly in the socket on the front panel and then press the EXECUTE button The EPROM is checked for erasure at this time and if it is blank programming will b
67. m pad with an EPROM sound generating circuit built into it A switch selects either an 8k sound or a 16k sound 2764 or 27128 As with all Simmons machines the data format is linear and several controls are available for changing the playback parameters of pitch envelope etc The SDS 9 has provisions for three digital sound chips Linear Format played with the Snare Rim A and Rim B controls The chips may be 2764 or 27128 types 8k or 16k and several controls are available for modifying the playback parameters of the sounds Appendix 1 Examples Prommer User s Guide Appendix 1 Examples 66 APPENDIX 1 PART B USING MIDI ZONES REQUIREMENTS MIDI ZONE MODE The creative possibilities for using the Prommer with a MIDI keyboard are almost limitless An understanding of zones is an important key to acheiving these capabilities This section will discuss ways of playing notes on a keyboard to trigger sounds in the Prommer and also change blocks sounds To begin with it will be assumed that you have a keyboard or other controller capable of transmitting MIDI information including velocity and pressure Velocity and pressure are not necessary for playing sounds but can add dynamic control of sounds by modulating the VCF and VCA Velocity also has another use as will be discussed later Connect the MIDI Output of the keyboard to the MIDI Input of the Prommer With the MIDI Mode on the Prommer to MIDI ZONE MODE playing a not
68. n press the LOAD DATA button again LOAD SETUP When you press EXECUTE if the data on the EPROM in the socket has the correct identification code at its beginning the parameters will be loaded into memory Note that this function doesn t affect the sound data at all just the settings such as block addresses zone limits etc FOR SERIOUS PROGRAMMERS ONLY An advanced feature of the Prommer is the ability to load a program written in 6809 machine language into memory and run it For more information please refer to the Prommer Service Manual When you press the RUN PROGRAM button the run program display will appear 1 RUN PROGRAM If you have loaded a valid 6809 program into the current block you can start execution of the program from the first address of the current block by pressing and holding the PARAMETERS button and then pressing EXECUTE If the data in the current block is not specifically a 6809 program DO NOT TRY TO RUN IT Unpredictable results will occur including possible loss of data in memory and probable lock up of the machine INTERNAL EXPANSION EPROM Prommer User s Guide There is additional memory space available inside the Prommer for possible future program enhancements If your Prommer was shipped from the factory with an EPROM installed in this socket you can access the programs it contains by pressing the RUN PROGRAM button and then pressing EXECUTE If no EPROM is installed here pressing EXECUTE wi
69. n of the problem O O1 Q NS When writing to Oberheim please also include your full address telephone number and the best time to call should it be necessary to call you rather than answer your letter Warranty OBERHEIM PROMMER SPECIFICATIONS Inputs Outputs Signal to noise ratio Display Memory capacity Sampling Rates Microphone input balanced low impedance XLR connector Line input unbalanced high impedance 1 4 phone jack Input sensitivity switch selectable Line input 4dB 10dB Mic input 46dB 60dB Ref OdB 775vrms External Trigger AC coupled Sensitivity 200mv rms at 1kHz Trigger response time 3 milliseconds MIDI Input 5 pin DIN socket Peak reading LED meter graduated in 3 db steps Clipping level 3 Unbalanced output 1 4 inch phone jack Output level 3dB 4vp p for Odb meter reading MIDI Output 5 pin DIN socket Bypass mode on 58db 16 Character Alphanumeric Vacuum Fluorescent 65536 64K bytes in16 User definable Blocks 12kHz 16kHz 24kHz 32kHz Maximum Recording time Sampling Format Power requirements Prommer User s Guide 5 46 seconds 8 Bit Companding 115vac 18 watts Specifications Prommer EPROM Log EPROM NAME Block size Description of sound or data Performance data Sample rate Transpose Filter setting Loop mode Loop start Notes Programmer s name Prommer EPROM Log EPROM NAME Block siz
70. nal trigger will be recognized For example at a playback rate of 32kHz a retrigger delay of 3200 will correspond to an actual delay of 1 10 second If a very percussive audio signal or a click is used for the trigger the delay may be set fairly short and you can retrigger a sound quickly If a more complex waveform is used its level may have to be decreased or a longer delay set to avoid multiple false triggers Note The external trigger will not work in GATED playback mode PRE EMPHASIS DE EMPHASIS Each block may be recorded with or without EMPHASIS This is an equalization circuit in the Prommer that boosts midrange and high frequencies during recording pre emphasis and cuts midrange and high frequencies upon playback de emphasis Press the EXT TRIGGER button again to see the EMPHASIS display 1 EMPHASIS OFF You can toggle the emphasis mode with the button Emphasis ON acts as a Sort of noise reduction when used on both input and output When recording sounds for drum machines remember that a sound recorded with pre emphasis will not neccessarily sound natural on a drum voice without de emphasis but you can add brightness to a sound by recording it with emphasis ON and playing it back with emphasis OFF IDLE BYPASS MODE Prommer User s Guide There is a function called IDLE BYPASS which bypasses the analog to digital converter circuitry in the Prommer whenever a sound is not being played or recorded This will
71. nction on a chip that has been programmed as linear the data will not compare correctly since the data on the chip was converted to linear but the data in memory is still companded However immediately after programming the data is automatically compared in the proper format so you can be assured that if the display reads OK after linear programming the chip has actually been programmed correctly SAVING A PROMMER SETUP f you have spent some time setting your Prommer to play several different sounds from a keyboard with blocks assigned to different zones and various transposes for each block for example you may want to save these set up parameters for later use You can do this by using the Program Setup Data function Press the PROGRAM PROM button again PROGRAM SETUP If you press EXECUTE now all block and global parameters currently set in the Prommer will be programmed onto the EPROM in the socket The Program Parameters function does not check erasure before programming so use it with care All parameters are saved including block addresses and lengths loop points MIDI zone limits MIDI channel and all other mode and status information A special code is saved at the beginning of the data to identify it as Prommer Setup Data All the data fits in less than 1k bytes so you can save several Prommer set ups on one EPROM by using the PROM offset function You can save up to eight sets of parameters in an 8k EPROM or 32 set
72. nd repeatedly after it is triggered and will only stop when the STOP button or another key is pressed GATED LOOP MODE LOOP POINTS Prommer User s Guide Gated loop mode is similar to loop mode except that the looping happens only as long as the PLAY button or MIDI key is depressed When the key is released the loop will finish playing and then the remaining part of the sound will play You may set the loop points for a block so that looping occurs only in a selected section of the sound The section that will repeat is defined by the loop start point and the loop end point To access the loop start point press PARAMETERS from the Playback Mode display 1 LOOP ST 0 The CLEAR button will set the loop start point to the start of the block Press the PARAMETERS button again to set the loop end point 1 LP END 8191 The CLEAR button will set the loop end point to the end of the current block As always the number on the left of the display is the current block You can use the number pad to change the start and end points or you may use the arrows Loop points are specified as an offset from the beginning of the current block So no matter where the current block is located in memory a loop start point of zero always indicates the beginning of the sound Playback Modes 21 AUTOMATIC ZERO CROSSING DETECTION You may notice that when you use the arrows to change loop points the numbers will move in apparently r
73. of the current block The address is always displayed in decimal and may also be entered numerically by pressing the button The data will blank out and you can now use the number pad to enter a different address Press the button again to return to examining data DATA DISPLAY FORMAT The data may be displayed in one of three different formats absolute value hexadecimal or sign amp magnitude To select the display format press the PARAMETERS button DISPLAY ABS VAL Use the arrows or the button to rotate between the three formats Absolute value format identified by a decimal point after the data shows the decimal value of the eight bit data in memory Sign amp magnitude format interprets the lower seven bits of data as a decimal number and the eighth bit as a sign O positive 1 negative This mode is useful for examining sound data Hexadecimal mode number base 16 is handy for examining MIDI data and is identified by the letter H to the right of the data Press PARAMETERS again to return to examining memory MODIFYING MEMORY In the absolute value and sign amp magnitude display modes you may modify the data that is currently displayed by using the number pad and the button to enter a new value directly Note The protect status of a block is NOT checked before data is modified with this function Prommer User s Guide Block Functions 39 Chapter 8 SOUND MODIFICATIONS The Prommer h
74. ogrammed and give it adescriptive name such as SNARE 31 STANDUP BASS MID C etc If the sound on the EPROM is used in the Prommer with looping or emphasis it would be good to write that data on the label also If there is not room to write all the necessary information on the label you might consider keeping a logbook of all your EPROMs and keep track of them by name or by an index number and write all the information in the book VS LINEAR DATA Sounds are recorded and played in the Prommer in a digital format called eight bit companded Oberheim and many other drum machines also use this format The other eight bit format used in the industry is known as linear Linear format is the simplest and most inexpensive to use but has a lower dynamic range than companded Companded format is better suited for reproducing audio signals The Prommer has the ability to convert data from one format to the other PROGRAMMING LINEAR EPROMS Prommer User s Guide If you want to program an EPROM for use in a linear drum machine you can use the program linear function Press the PROGRAM PROM button again and you will see the display 1 PROG LINEAR This function works the same as PROGRAM PROM except that just before programming each byte the data is converted from companded to linear format The data in the Prommer s memory is not changed by the process only the data on the EPROM is converted EPROMs 29 Note If you use the COMPARE DATA fu
75. on Transferable Oberheim a Division of E C C Development Corporation warrants its products when purchased in the United States of America from an Authorized Oberheim Dealer to be free from defects in materials or workmanship for a period of 12 months from the date of purchase Warranty service is effective and available to the original purchaser ONLY and only upon completion and return of the Oberheim Warranty Registration card within 14 days of the date of purchase Warranty coverage is valid for Factory Authorized updates to Oberheim products when their installation is performed by an ECC Oberheim Authorized Service Center and a properly completed Warranty Certificate is returned to the factory within 14 days of installation To obtain service under this Warranty the product must upon discovery of the defect be properly packed and shipped to the nearest Oberheim Authorized Service Center The party requesting Warranty service must provide proof of original ownership and date of purchase of the product or date of installation of the update by supplying to the Oberheim Authorized Service Center either the Warranty Registration Sticker applied to the unit itself or the sales receipt installation receipt In the event that both have been lost or misplaced the Service Center shall at the Service Center s or owner s expense contact Oberheim to verify the Warranty status of the product If the Warranty has been verified Oberheim wil
76. one find a quiet place to work with as little background noise as possible and connect the microphone to the Mic Input of the Prommer If you are recording from tape or disk you can use the Line Input After selecting the appropriate sample rate monitor the output of the Prommer with the Idle Bypass off and set the record level Select a block and set its length to match the capacity of the drum voice you intend to use for your new sound Now record the sound and play it back If neccessary record the sound again until it sounds right If the sound is slightly too long for the block you may use the envelope function to reduce any sudden cutoff use a slower sample rate or you may have to consider using a different type of drum voice with a greater capacity 2 Burning an EPROM Once you have a sample that you are satisfied with you can program it into an EPROM or multiple EPROMs Handle EPROMs with care and be certain to set the Prommer for the same type of EPROM that you will be using If you have a linear format drum machine don t forget to use the Program Linear function Another consideration when making sound chips is that some DX and DMX voices have a hardware circuit that creates an envelope This will affect the sound in such a way that the sound you heard on the Prommer will not neccessarily be the same on the drum machine The best type of drum voice for playing Prommer sounds is one without any enveloping and with a w
77. one in order to reduce the possibility of audio feedback c Connect a low impedance microphone to the MIC INPUT of the Prommer using a standard microphone cable and set the input level switch on the back panel to 44 RECORDING A SOUND 1 Set the record level 2 Get ready to record 3 Record a sound Prommer User s Guide 10 Speak into the microphone and say Hello a few times Watch the LED meter on the Prommer and raise the INPUT LEVEL control until the yellow LED lights while you speak a Press the SELECT BLOCK button b Press 1 to select block number 1 C Press the PARAMETERS button to see the address of block 1 d Press 0 to set the address of block 1 to zero e Press the PARAMETERS button again to see the length of block 1 f Press 3 and then press 2 to set the length of block 1 to 32k g Press the SAMPLE RATE button h Press CLEAR to set the sample rate to 32kHz i Press the SAMPLE RATE button again to set the record threshold j Press CLEAR to set the threshold to 18db 8 Be quiet b Press and HOLD the RECORD button Display will read PRESS PLAY C Press the PLAY button and then release both buttons The display should read RECORDING d Speak into the microphone Hello The display will read RECORDING NOW for about one second Getting Started PLAYING BACK A SOUND 1 Play the sound normally a Press the PLAY button and listen thro
78. or storing synthesizer patches that are transmitted in their own MIDI system exclusive format Press the RECEIVE DATA button to prepare to receive MIDI data in the current block 3 RECEIVE DATA Be sure the current block is long enough to receive the expected amount of data When you press EXECUTE to start receiving you have about five seconds to start transmitting from your synthesizer Any time during reception if five seconds pass with no data received over MIDI the Prommer will automatically cancel the receive data mode You may also cancel receive mode by pressing the STOP button The display will then show the number of bytes that were received OK 1234 BYTES This number is stored as two bytes in the first two memory locations of the current block The actual data received starts at the third location MIDI DATA TRANSMISSION To retransmit this kind of MIDI data do not use the system exclusive dump use the transmit data function Press the RECEIVE DATA button again 1 TRANS DATA Warning do not try to transmit data that was not originally received using the RECEIVE DATA function Sending non MIDI data out over MIDI may have unpredictable results on any units connected to the Prommer s MIDI Out connector When you are ready to transmit press the EXECUTE button and the first two bytes of the current block will be read to determine the number of bytes to transmit The data will now be transmitted starting with the da
79. ote is playing before robbing the Prommer of its note and retriggering it with the latest note on number See figure 9 for an example of using spillover echo EXAMPLE OF USING MULTIPLE PROMMER UNITS TOGETHER POLYPHONICALLY Prommer User s Guide 44 By using spillover echo mode many Prommers may be linked together to play sounds polyphonically Using MIDI cables as shown connect the units together Set all units to the same MIDI channel and set the spillover echo number for each unit to the number of Prommers to the right of the selected one as shown in the picture The last unit in the chain should have ECHO OFF Load the sound s that will be played into the first unit in the chain and then execute a MIDI DUMP ALL command to copy the sounds into the other units PICTURE HERE Figure 9 Spillover example MIDI MIDI BLOCK SELECT MODES There are three basic MIDI modes of operation for the Prommer Press the MIDI MODE button to see the currently selected mode One of the following three messages will be displayed The mode may be changed by using the button or the arrows MIDI ZONE MODE MIDI zone mode is the most commonly used mode and can be used to allocate different sections of the keyboard to different blocks sounds In this mode if a MIDI note is received that is outside of the zone limits for the current block the limits of each other block are tested until a block is found that the note will fit in This new block
80. ou last turned off the power will still be there when you turn the power on again The battery should last more than a year before it starts to run down but when the battery does eventually fail the Prommer will lose data when the power is turned off and the next time the power is turned back on the display will read CHECK BATTERY The CHECK BATTERY message will appear immediately after turning on the AC power if there has been a major loss of memory When this message appears contact your local Oberheim Authorized Service Center to get a replacement battery installed IN CASE OF A PROBLEM TEST PROGRAMS Prommer User s Guide 51 On rare occasions computer based products like the Prommer will unexpectedly lock up or cease functioning This can be caused by surges in the AC power line or static electricity shocks especially static shocks caused when touching the EPROM socket If the Prommer locks up it can usually be restarted without any loss of memory by simply turning the power off and then on again If the unit remains locked up there is a failsafe method of restarting it hold the CLEAR button down while turning on the power ALL data in memory will be erased and all parameters will be set to default values Since this erases all sounds in memory it is recommended that you save your important sounds and other data on EPROMs or some other permanent storage device soon after recording them If the Prommer seems to behave in an o
81. rmat Press the BLOCK DUMP button again SYSX DUMP ALL System exclusive Dump All will transfer all blocks and block parameters over MIDI Notice that if there are overlapping blocks defined some data will be transmitted more than once Since it takes several seconds to transmit sound data a system exclusive dump all may take several minutes if there is much overlapping data After all blocks have been transmitted global parameters MIDI mode Bend Range Program Change Enable MIDI Channel Velocity and Pressure Destinations and External Trigger parameters are also transferred Press EXECUTE to start the transfer STOP TO CANCEL 1 The number displayed on the right is the current block and you will see it automatically incremented as blocks are transmitted one at a time MIDI UNIVERSAL SAMPLE DUMP The Universal sample dump system is designed to use MIDI In and MIDI Out on each machine to provide handshaking between the two machines involved in the transfer see figure 10 Although both connections are not absolutely necessary for improved speed and error correction this closed loop system may be used If asingle connection is used open loop the cable should be connected from the sender s MIDI Out to the receiver s MIDI In 43 14dl 4v 5 Prommer z REQUEST FPIDI Oberheim Figure 10 Closed Loop Communication Prommer User s Guide 48 To prepare to transmit a sample in universal format
82. rt of Sign Magnitude format known as companded The most significant bit is the sign and the other bits represent the magnitude of the sample in two parts the chord and the step values SIGN STEP J miens M con ZA P SSSESS CHORD Figure ll Companded Data Format Briefly the chord value represents one of eight possible ranges of output levels each range being twice as large as the next lowest The step value represents one of 16 equal divisions within the selected chord Miscellaneous Prommer User s Guide Information 53 Miscellaneous Prommer User s Guide Information 54 Oberheim Prommer Summary of Functions SELECT BLOCK SAMPLE RATE RECORD TRIGGER TRANSPOSE FINE TUNE SET FILTER PLAY MODE Select the current block number 1 16 parameters BLOCK ADDRESS Select the beginning memory address for the current block BLOCK LENGTH Select the length of the current block BLOCK PROTECT Select protect status for the current block Select the sample rate for recording 12kHz 16kHz 24kHz 32kHz parameters RECORD TIME Display the recording time available in the current block at the selected sample rate THRESHOLD Select the level of sound that will trigger recording 45 0 dB Select the playback transpose amount for the current block 48 48 semitones Select the playback fine tune amount for the current block 127 127 Select tracking filter or fixed filter
83. s in a 32k EPROM You may also save setup and sound data on one chip for example you can program the Prommer setup data onto a 27256 EPROM at a zero PROM offset and then program a 31K block containing one or more sounds onto the same EPROM by setting the PROM offset to 1k This is how the Oberheim Prommer Factory Stock sound chip was made LOADING DATA FROM EPROMS Data that is already on an EPROM may be loaded into the current block Press Prommer User s Guide the LOAD DATA button again to get the display 1 LOAD DATA You can change the current block number displayed at the left with the number pad or the arrows at this point When you press EXECUTE the data in the EPROM in the socket will be copied into the current block if the block is not protected If the block size is smaller than the EPROM only the first part of the EPROM data will be loaded If the block size is larger than the EPROM the EPROM data will be loaded into the beginning of the block leaving the remaining portion undisturbed EPROMs 30 LOADING LINEAR EPROMS You can also load linear format data from EPROMs into the Prommer Press the LOAD DATA button again 1 LOAD LINEAR This is the same as the load data function except that the data is converted from linear format to companded before storing it in the current block LOADING SETUP DATA FROM EPROMS To retrieve set up parameters from an EPROM that were saved using the Program Setup functio
84. sition will be logically inverted If a 1 or 0 is displayed select with 1 or O buttons the bit at that position will set to one or to zero respectively See the table below Bit display Select with Result after EXECUTE CLEAR No Change X Invert bit 1 1 Set bit to 1 0 0 Set bit to 0 One application of this function is to introduce distortions to asound by setting certain bits to one or zero or by inverting bits 2 BIT X 1 01 Another application is phase inversion by inverting only the most significant bit the sign bit you can invert the polarity of a sound If you have modified a sound with a bit pattern containing only X s and s you can return the sound to normal by applying the same pattern a second time If you have applied a pattern containing any zeros or ones there is no way to return to the original data unless you made a copy of the block before starting Prommer User s Guide Block Functions 38 DISPLAYING MEMORY The Prommer will allow you to examine and modify memory one byte at a time Press the REVERSE button again and the examine memory display will appear 1 4321 129 The number on the far left is the current block The number just to the right of the comma is an absolute memory address and the data byte located at that address is displayed at the far right The arrows are used to increment or decrement the address The CLEAR button will reset the address to the start
85. sound data and parameters in the current block over MIDI in Prommer system exclusive format SYSTEM EXCLUSIVE DUMP ALL Press EXECUTE to dump all blocks and parameters over MIDI in Prommer System exclusive format MIDI DUMP Prommer User s Guide Summary of Functions 57 REQUEST MIDI RECEIVE DATA TRANSMIT DATA RECORD PLAY STOP Prommer User s Guide Press EXECUTE to transmit the current block in universal MIDI linear sample format Press EXECUTE to transmit a dump request and wait for incoming universal MIDI sample data Press EXECUTE to enable transfer of MIDI data directly into the current block Function will time out after five seconds of inactivity First two bytes of block will contain the number of bytes received Press EXECUTE to transfer data in the current block directly out over MIDI First two bytes of block must contain the number of bytes to transmit Press RECORD and PLAY to record sound into the current block Press PLAY to play the sound in the current block Press STOP to halt sound playback or any operation in progress Summary of Functions 58 Prommer Application Examples Prommer User s Guide Appendix 1 Examples 59 APPENDIX 1 PART A DRUM MACHINES AND EPROMS Prommer User s Guide 60 One of the primary reasons for Oberheim s introduction of the Prommer was the demand by DMX and DX owners for a way to create new sounds for their drum machines This section of the
86. ta at the third address of the current block After transmission is complete the display will indicate the number of bytes that were transmitted RECEIVE TRANSMIT DATA EXAMPLE The Prommer may be used with any synthesizer or drum machine that can Prommer User s Guide 49 transmit and receive program patch data on MIDI to save and recall patches on EPROMs Each type of machine will vary slightly but the procedure is basically the same as described here with the Oberheim Matrix 12 synthesizer as an example The amount of data transmitted in a Patch Dump will vary from machine to machine so before starting make sure there will be enough room in the current block to receive all the data set block 1 to address 0 and length 64k MIDI Prommer User s Guide 50 With MIDI Out of the Matrix 12 connected to MIDI In of the Prommer select the RECEIVE DATA function on the Prommer When the synthesizer has been prepared to transmit its patches Master page MIDI SEND ALL press EXECUTE on the Prommer You now have five seconds to start transmission of the Matrix 12 patches by pressing the START button Now just wait until the synthesizer has completed its transmission and then when no MIDI data is received after five seconds the Prommer will cancel the Receive mode automatically Note If your synthesizer sends active sensing status or controller data continuously on MIDI the Prommer won t stop receiving until the current block
87. th 4k 8k 16k 32k 64k 12kHz 4 8kHz 0 34 0 68 1 36 2 73 5 46 16kHz 6 4kHz 0 25 0 51 1 02 2 04 4 09 24kHz 9 6kHz 0 17 0 34 0 68 1 36 2 73 32kHz 12 8kHz 0 13 0 25 0 51 1 02 2 04 Table 1 Recording time in seconds The sample rate may be important when you record sounds for drum chips when choosing a sample rate consider the fact that most Oberheim DMX and DX drum voices are designed for sounds originally sampled at 20kHz to 40kHz For example a sound recorded at 12kHz will not play back on a DMX Snare drum voice at the proper rate due to limited tuning range Refer to appendix 1 for approximate sample rates for various Oberheim drum voices RECORDING TIME DISPLAY Prommer User s Guide If you want to see just how much time is available for recording at the current block size and selected sample rate press the PARAMETERS button from the Sample Rate display 16 TIME 2047 MS This is the recording time displayed in milliseconds A millisecond is one thousandth of a second 2047 milliseconds 2 047 seconds To return to the Sample Rate display press PARAMETERS again Sampling 17 RECORD TRIGGER THRESHOLD The record trigger threshold is the input amplitude level that is required to start the process of recording a sound To set the record trigger threshold level press the SAMPLE RATE button again The display will show RECORD AT 18 DB Use the number pad or the arrows to set the threshold level to any val
88. the display will read RECORDING NOW Recording will continue until the current block is full After you record a sound you can play it back by pressing PLAY You can re record a sound if you want to just press RECORD and PLAY again Sampling 18 Note Once the Prommer is in record ready mode when the display reads RECORDING there is no way to leave this mode without recording a sound unless you turn the power off and then on again For example if you forget to plug in a microphone and you press RECORD and PLAY the Prommer will ignore all buttons on the front panel including STOP until asound has been recorded Also if you accidentally start to record over an unprotected block you wanted to save the first part of the block may be erased even if you do turn the power off before recording starts This is because the current block is used as a pre record buffer and the first part of it will contain new samples even though the input signal was less than the record threshold possibly only a few bytes may be lost SETTING THE RECORD LEVEL TO MINIMIZE DISTORTION Due to the nature of digital recording you will get the best signal to noise ratio at the highest recording level possible but when the level is increased beyond a certain point the signal will be clipped distorted suddenly This is different from recording on magnetic audio tape where you have a certain amount of headroom and overload distortion happens gradual
89. therwise unexpected manner be sure to check all parameters that could be related to the problem before assuming that it is broken If there is an obvious problem contact your nearest Oberheim Authorized Service Center There are some functions not normally available in the Prommer that are accessed in the following way 1 Turn off the AC power 2 Hold down both the PLAY and RECORD buttons 3 Turn the power on again As long as the PLAY and RECORD buttons are held down the display will read TEST PROGRAMS Miscellaneous Information ABOUT BYTES AND Prommer User s Guide 52 After releasing all switches the first of eight test progams used to verify operation of the Prommer will be displayed Most of these are of interest only to the service technician however the first one may be used to set the brightness of the vacuum fluorescent display DISPLAY INTENS Press the arrows to increase or decrease the intensity of the display When the intensity is at an acceptable level press STOP The Prommer will remember this value and use it to set the brightness of the display in the future until you change the value again You may press EXECUTE to start any of the tests or just keep pressing STOP until the display reads OBERHEIM PROMMER At this point normal operation is resumed Important note Be sure that the PROM socket on the front panel is empty before executing any of the test programs For more information regard
90. tion 7 2 Getting started 9 3 Blocks 13 A Select block B Block address C Block length D Protect 4 Sampling 17 A Sample rate B Sample time display C Record trigger threshold D How to record a sound 5 Playback modes 21 A Play mode B Loop points C Looping guidelines D Transpose E Fine tune F Filter frequency G External trigger H Retrigger delay l Emphasis J ldle bypass 6 EPROMs 25 A Cautions B Select PROM type C PROM offset D Check erasure function E Erasing EPROMs F Compare data function G Program PROM function H In case of an error Program linear function J Program setup function K Load data function L Load linear function M Load setup function N Run program function O Example1 Programming EPROM with block of equal size P Example 2 Programming multiple EPROMs with one sound Q Example 3 Programming multiple sounds on one EPROM Prommer User s Guide Table of Contents 4 Prommer User s Guide 5 7 Block functions A Copy block function B Swap block function C Erase block function D Erase all function E Reverse block function F Bit manipulation function G Examine memory function 8 Sound modifications Envelope function Envelope decay time Envelope start point Mix block function Mix ratio Ring modulate function Stretch function Squash function rommoogr 9 MIDI A Channel select B Keyboard pitch enable C Echo D Modes E
91. tions operate only on the currently selected block of memory All EPROM operations require a chip installed in the socket on the front panel according to the diagram in Figure 4 to install an EPROM first lift the socket handle insert the EPROM make sure all the pins are straight and then push the handle down to secure it Notice that 24 pin EPROMs must be placed only in the lower holes of the socket Note DO NOT remove or insert an EPROM while any EPROM operation is in progress Notch at this end 28 pin PROM Figure 4 PROM Orientation EPROMs 25 CAUTIONS 1 EPROMs are very sensitive to damage and you should always use great care and caution in handling them A major cause of permanent EPROM failure is static_electricity damage You should always keep your EPROMs in static protective foam or tubes when they are not in use Do not touch an EPROM after walking across a carpet on adry day without grounding yourself first to dissipate any electrical charge 2 Try not to bend the leads on an EPROM as they are delicate and will break easily 3 EPROMs must always be oriented properly in their sockets with the notch in the end facing the correct way VERY IMPORTANT NOTE Each type of EPROM requires a different programming algorithm and some types use different pins for different functions The Prommer must be configured differently for each type so you must always specify what type of EPROM you are using SELECT
92. ue between 0 and 45db The number displayed corresponds approximately with the level you see on the LED meter When the Prommer is in a ready to record condition the recording will start when the input signal level exceeds the record trigger threshold The Prommer uses a pre record buffer so that the leading edge of the audio cycle that triggers it will not be lost This allows recording data starting with the first zero level crossing before the trigger point to eliminate any clicks or thumps that may be caused by starting a sound at the wrong phase of a cycle If you want to be able to record immediately without waiting for the input signal to trigger just set the threshold level to its minimum value of 45 Recording will then start as soon as record mode is entered see below Pressing the SAMPLE RATE button again will take you back to the SAMPLE RATE display RECORDING A SOUND To record a sound press and hold the RECORD button If the current block Prommer User s Guide length is greater than 15 bytes and the block is not protected the display will read PRESS PLAY Still holding the RECORD button now press the PLAY button The display will now read RECORDING Now the Prommer will wait for the input signal to reach the record trigger threshold You may now release both buttons When the input signal becomes loud enough to cross the threshold the Prommer will start recording into the current block and
93. ugh the headphones You should be able to hear the sound you just recorded 2 Try changing some playback parameters a Press the SAMPLE RATE button until the sample rate is displayed Press the lt button and see that the rate changes to 24kHz b Press PLAY and hear how the sound has changed Press the lt button again to change the sample rate to 16khz and 12kHz Press PLAY at each sample rate and listen to how the pitch changes c Set the sample rate back to 32kHz d Press the TRANSPOSE button The display should read 1 TRANSPOSE 0 e Use the number pad to enter a number between 1 and 48 Press PLAY Use the button to change the sign of the transpose value displayed Press PLAY again Try entering different values and listening to how the sound changes each time f Set the transpose back to zero MODIFY THE SOUND a Press the REVERSE button The display will read 1 REVERSE b Press the EXECUTE button The display will read BUSY for a moment c Press PLAY Hear how the sound plays backwards Press EXECUTE again Press PLAY and notice that the sound has returned to normal Prommer User s Guide Getting Started 11 PLAYING SOUNDS FROM THE OBERHEIM STOCK EPROM An EPROM containing some sample sounds and a demonstration program comes packaged with the Prommer Before handling the EPROM please skip ahead and read the warnings at the beginning of Chapter 6 EPROMs a Insert t
94. unresolved after you have contacted the Service Center and Dealer contact the Oberheim factory In an attempt to resolve your problem we will work with your local Service Center or Dealer to review and verify the information and facts Based on these facts we will advise or consult with the Service Center or Dealer as appropriate Written correspondence should be addressed to OBERHEIM Division of E C C Development Corporation Customer Services Department 11650 Olympic Boulevard Los Angeles CA 90064 Every attempt will be made to respond to your letter as quickly as possible If you would prefer to contact the Oberheim factory by telephone a Service Representative will be available to assist you Our telephone hours are from 1 00 PM to 4 00 PM West Coast Time Monday through Friday only The Customer Services Department can be reached at 213 479 4851 Collect calls cannot be accepted When calling the ECC Oberheim offices Y Have your instrument and amplifier turned on and in front of you when you are on the phone You should also have your Owner s Manual with you N Tell the receptionist that you are having a problem with your Oberheim product and ask to speak to a Service Representative Be prepared to provide the following information Your name The model of the product The product s Serial Number The name of the Dealer from where it was purchased The exact date of purchase A complete descriptio
95. urrent block with 255 being wide open and 1 being the lowest filter cutoff frequency These numbers are not calibrated to the actual cutoff frequency and should just be used for reference 1 FILTER 123 You can set the filter back to tracking mode by entering a value of zero or by pressing the CLEAR button The filter is also controllable by MIDI pressure and or velocity MIDI control will override the filter setting shown here See the section about MIDI for more information EXTERNAL TRIGGERING Prommer User s Guide Playback Modes 23 As mentioned earlier the playback of sounds may be triggered with an external trigger through the quarter inch phone jack on the back panel This trigger may be a logic signal such as the click output of a drum machine a high level percussive audio signal a drum pad output or a momentary footswitch To enable the external trigger press the EXT TRIGGER button EXT TRIGGER OFF Use the button or the arrows to enable the trigger Use the CLEAR button to disable the trigger The trigger polarity may be set to positive or negative ON or ON If an audio trigger is used you will probably need to set the retrigger delay Press the PARAMETERS button now RETRIG DLY 0 Use the number pad or arrows to set the retrigger delay The arrows will increment or decrement the delay value by 128 The retrigger delay is the number of bytes that will play after a sound is triggered before a new exter
96. ut of the Prommer is too high the input amplifiers may be overloaded Also be sure the input sensitivity switch on the rear panel is set for the proper range of input levels 4 or 10 and if necessary reduce the level of the input device Prommer User s Guide Sampling 19 Prommer User s Guide Sampling 20 Chapter 5 PLAYBACK MODES NORMAL MODE GATED MODE LOOP MODE The Prommer is able to play back sounds that have been recorded into it monophonically one block at a time The audio output should be connected to an amplifier with a volume control or to a line level input of an audio mixing board You can play back sounds in three different ways with the PLAY button on the front panel with an external trigger or with a MIDI keyboard or other MIDI controller There are four basic modes for playing back sounds normal gated loop and gated loop The play mode may be set differently for each individual block To show the play mode for the current block press the PLAY MODE button 1 MODE NORMAL You can use the arrows to select the mode now The number on the left of the display is the current block In normal mode when you trigger a sound the current block will play through to its end unless it is retriggered or the STOP button is pressed In gated mode the sound will only play as long as the PLAY button or MIDI key is depressed Releasing the key will stop the playback immediately Loop mode will play a sou
97. ut will track the playback rate or can be set to a selected frequency UNDERSTANDS MIDI Prommer User s Guide 7 MIDI note on commands can be used to play sounds at different pitches with velocity and pressure controlling loudness and or filter frequency MIDI pitch wheel information can also control pitch to allow bending notes The Prommer can transmit sound data over MIDI to another Prommer or to another machine that uses a proposed standard MIDI sample dump The Prommer can also record received MIDI data directly into memory and retransmit it on command This feature is useful for saving synthesizer patches drum machine sequences etc Introduction STORES MULTIPLE SOUNDS The memory of the Prommer may be divided into 16 blocks Each block may be defined to cover any portion of memory and may even overlap other blocks All operations Record Play Program PROM etc take place only within the currently selected block When you record a sound for example sound is recorded only into that part of memory defined by the current block This means that you can have as many as 16 different sounds in memory at one time Non volatile battery powered memory is used so all your sounds will be retained in memory even with the power off MANIPULATES SOUND DATA AND MORE Prommer User s Guide 8 Sounds may be modified in several ways including reversing mixing stretching squashing and enveloping These Sound Mod functions
98. voice card which requires four 8k 2764 EPROMs for a total of 32k To program your 32k sound onto four 2764s you need to set up four other blocks that cover the same portion of memory containing your sound Let s say the sound in block 1 is a 32k block starting at address 0 You can define four other blocks each with a length of 8k Block 2 Address 0 Length 8k Block 3 Address 8k Length 8k Block 4 Address 16k Length 8k Block 5 Address 24k Length 8k Now all you need to do is program your four EPROMs from blocks 2 3 4 and 5 see figure 5 on the next page Remember to label your EPROMs immediately after programming so they don t get mixed up EPROMs 32 32k sample Program EPROM R1 from block 2 Program EPROM R2 from block 3 Program EPROM R3 from block 4 Program EPROM A4 from block 5 Block 5 Figure 5 One Sound on Four Chips EXAMPLE 3 MULTIPLE SOUNDS ON ONE EPROM If you want to put two sounds on one chip for the PERC position in your DX two 4k sounds on one 8k chip there are at least two ways to do it One way is to record the separate sounds into the Prommer in two sequential blocks and then define a block that covers both of these and program the EPROM from this third block as shown in figure 6 Two sounds on one chip 4k ak Record sound into block 2 Record a sound into block 3 Block 3 Program EPROM from block 1 Block 1 Figure 6
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