DBX DDP Owner's Manual [es]

WARNING FOR YOUR PROTECTION

PLEASE READ THE FOLLOWING:

KEEP THESE INSTRUCTIONS HEED ALL WARNINGS FOLLOW ALL INSTRUCTIONS CLEAN ONLY WITH A DAMP CLOTH. DO NOT BLOCK ANY OF THE VENTILATION OPENINGS.

INSTALL IN ACCORDANCE WITH THE MANUFACTURERS INSTRUCTIONS.

DO NOT INSTALL NEAR ANY HEAT SOURCES SUCH AS RADIATORS, HEAT REGISTERS, STOVES; OR OTHER APPARATUS (INCLUDING AMPLIFIERS) THAT PRODUCE HEAT.

ONLY USE ATTACHMENTS/ACCESSORIES SPECIFIED BY THE MANUFACTURER.

UNPLUG THIS APPARATUS DURING LIGHTNING STORMS OR WHEN UNUSED FOR LONG PERIODS OF TIME.

WATER AND MOISTURE:Appliance should not be used near water (e.g. near a bathtub, washbowl,kitchen sink, laundry tub,in a wet basement, or near a swimming pool,etc). Care should be taken so that objects do not fall and liquids are not spilled into the enclosure through openings.

POWERSOURCES: The appliance should be connected to a power supply only of the type described in the operating instructions or as marked on the appliance.

GROUNDING ORPOLARIZATION: Precautions should be taken so that the grounding or polarization means of an appliance is not defeated.

POWERCORD PROTECTION:Power supply cords should be routed so that they are not likely to be walked on or pinched by items placed upon or against them, paying particular attention to cords at plugs,convenience receptacles,and the point where they exit from the appliance.

SERVICING: To reduce the risk of fire or electric shock, the user should not attempt to service the appliance beyond that described in the operating instructions. All other servicing should be referred to qualified service personnel.

UNITS EQUIPPED WITH EXTERNALLY ACCESSIBLE FUSE RECEPTACLE: Replace fuse with same type and rating only.

MULTIPLE-INPUT VOLTAGE: This equipment may require the use of a different line cord, attachment plug, or both, depending on the available power source at installation. Connect this equipment only to the power source indicated on the equipment rear panel. To reduce the risk of fire or electric shock, refer servicing to qualified service personnel or equivalent.

SAFETY INSTRUCTIONS

NOTICE FOR CUSTOMERS IF YOUR UNIT IS EQUIPPED WITH A POWER CORD.

WARNING: THIS APPLIANCE MUST BE EARTHED. The cores in the mains lead are coloured in accordance with the following

code:

GREEN and YELLOW - Earth BLUE - Neutral BROWN - Live

As colours of the cores in the mains lead of this appliance may not correspond with the coloured markings identifying the terminals in your plug,proceed as follows:

• The core which is coloured green and yellow must be connected to the terminal in the plug marked with the letter E, or with the earth symbol, or coloured green, or green and yellow.

• The core which is coloured blue must be connected to the terminal marked N or coloured black.

• The core which is coloured brown must be connected to the terminal marked L or coloured red.

This equipment may require the use of a different line cord,attachment plug, or both, depending on the available power source at installation. If the attachment plug needs to be changed,refer servicing to qualified service personnel who should refer to the table below. The green/yellow wire shall be connected directly to the units chassis.

WARNING: If the ground is defeated,certain fault conditions in the unit or in the system to which it is connected can result in full line voltage between chassis and earth ground. Severe injury or death can then result if the chassis and earth ground are touched simultaneously.

The symbols shown above are internationally accepted symbols that warn of potential hazards with electrical products. The lightning flash with arrowpoint in an equilateral triangle means that there are dangerous voltages present within the unit. The exclamation point in an equilateral triangle indicates that it is necessary for the user to refer to the owner’s manual.

These symbols warn that there are no user serviceable parts inside the unit. Do not open the unit. Do not attempt to service the unit yourself. Refer all servicing to qualified personnel. Opening the chassis for any reason will void the manufacturer’s warranty. Do not get the unit wet. If liquid is spilled on the unit,shut it off immediately and take it to a dealer for service. Disconnect the unit during storms to prevent damage.

U.K. MAINS PLUGWARNING

A molded mains plug that has been cut off from the cord is unsafe. Discard the mains plug at a suitable disposal facility. NEVER UNDER ANY CIRCUMSTANCES SHOULD YOU INSERT A DAMAGED OR CUT MAINS PLUG INTO A 13 AMP POWER SOCKET. Do not use the mains plug without the fuse cover in place. Replacement fuse covers can be obtained from your local retailer. Replacement fuses are 13 amps and MUST be ASTA approved to BS1362.

LITHIUM BATTERY

WARNING

CAUTION!

This product may contain a lithium battery. There is danger of explosion if the battery is incorrectly replaced. Replace only with an Eveready CR 2032 or equivalent. Make sure the battery is installed with the correct polarity. Discard used batteries according to manufacturer’s instructions.

ADVARSEL!

Lithiumbatteri - Eksplosjonsfare.Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten. Brukt batteri returneres apparatleverandøren.

ADVARSEL!

Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri av samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren.

VAROITUS!

Paristo voi räjähtää, jos se on virheellisesti asennettu.Vaihda paristo ainoastaan laitevalmistajan suosittelemaan tyyppin. Hävitä käytetty paristo valmistajan ohjeiden mukaisesti.

VARNING!

Explosionsfara vid felaktigt batteribyte. Använd samma batterityp eller en ekvivalent typ som rekommenderas av apparattillverkaren. Kassera använt batteri enligt fabrikantens instruktion.

IMPORTANT SAFETY INSTRUCTIONS

ELECTROMAGNETIC

COMPATIBILITY

This unit conforms to the Product Specifications noted on the Declaration of Conformity. Operation is subject to the following two conditions:

• this device may not cause harmful interference, and

• this device must accept any interference received, including interference that may cause undesired operation.

Operation of this unit within significant electromagnetic fields should be avoided.

• use only shielded interconnecting cables.

Power Supply

Operating Voltage: 100 VAC 50/60 Hz

120 VAC 60 Hz

230 VAC 50/60 Hz Power Consumption: 28 Watts Mains Connection: IEC 320 receptacle Backup Battery Type: 3 Volt Lithium, Eveready Style ER2032 or equivalent

English . . . . . . . . . . . . . . . . . . . . . .1

Français . . . . . . . . . . . . . . . . . . . .39

Deutsch . . . . . . . . . . . . . . . . . . . .79

Español . . . . . . . . . . . . . . . . . . .119

ENGLISH

Section 1: Introduction . . . . . . . . . . .2

Unpack . . . . . . . . . . . . . . . . . . . . . . . .2

Quickstart . . . . . . . . . . . . . . . . . . . . . . .2

Section 2: The DDP Tou r . . . . . . . . .3

Hardware . . . . . . . . . . . . . . . . . . . . . . .3

Front Panel/Display . . . . . . . . . . . . . .3

Rear Panel . . . . . . . . . . . . . . . . . . . .3

Signal Flow . . . . . . . . . . . . . . . . . . . .4

Software . . . . . . . . . . . . . . . . . . . . . . . .5

Setups and Programs . . . . . . . . . . . .5

Gate Section . . . . . . . . . . . . . . . . . . .5

Compressor Section . . . . . . . . . . . . . .5

Limiting Section . . . . . . . . . . . . . . . . .5

De-essing Section . . . . . . . . . . . . . . .5

Sidechain EQ Section . . . . . . . . . . . . .5

Dither . . . . . . . . . . . . . . . . . . . . . . .5

Section 3: Setup/Basic Operation . . .6

Analog Connections . . . . . . . . . . . . . . . .6

Digital Connections . . . . . . . . . . . . . . . . .6

MIDI Connections . . . . . . . . . . . . . . . . . .7

The Curve Window . . . . . . . . . . . . . . . . .7

Software Navigation . . . . . . . . . . . . . . . .8

Threshold Metering . . . . . . . . . . . . . .8

Operating Modes . . . . . . . . . . . . . . . .9

Program Mode . . . . . . . . . . . . . .9

Congratulations on your purchase of the dbx DDP Digital Dynamics Processor. For over 25 years dbx has been the industry leader in dynamics processing. With the introduction of the DDP, we take that same leadership into the digital domain. We are sure you will find the DDP able to meet all your dynamics control needs.

This manual will be your key to understanding the full functionality of the powerful DDP. Read it carefully. After you have become familiar with the unit, we encourage you to experiment and find creative ways that the DDP can make you a better musician and engineer.

Unpack

Your DDP was carefully manufactured, tested, burned in, and packaged at the dbx factory. Before you proceed further, make sure the following items are included in your packaging:

• dbx DDP Digital Dynamics Processor

• Operator’s manual

• Power cord

• Warranty registration card

You should save all packaging materials if possible. They were designed to protect the unit during shipping, and in the unlikely event that your DDP should require service, use only the factory packaging to return it to the factory.

Quickstart

If you are one who prefers to plug and play and read later, follow these simple instructions for setting up the DDP, and get on your way:

1. Make sure that AC power is not connected to the DDP. Turn off the power to your console, recorder, and other devices in your setup.

2. Make audio connections in one of several ways:

A. Wire the analog inputs and outputs into a patch bay. This method will prove to be the most

useful in the long run.

B. Connect the DDP’s inputs and outputs directly to the insert point of a console’s input strip,

group output, auxiliary send and return, or main outputs.

C. Connect the DDP’s input to another device’s outputs, and connect the DDP’s outputs to the

line inputs of a console.

3. With the power switch in the OFF position, connect the power cable (included) to the DDP.

4. Press the LightPipe METER SELECT switch IN to select the INPUT meters for the analog signal. Turn the analog audio input level pots all the way to the OFF (-∞) position (fully counter-clockwise). Apply power to the other devices in the setup first, then the DDP. The DDP “wakes up” in the default program mode. You may use the large wheel to the right of the screen to scroll through the various programs.

5. When you have a program selected that suits your application, you can start making sound: make sure there is signal arriving at the DDP’s input, and begin to turn up the INPUT level pots until the

LightPipe input meters are peaking at, but not above “+12”. And away you go!

Section 1: Introduction

HARDWARE Front Panel

Analog Input and Output Level Controls

These controls adjust the analog audio levels of the DDP at the input and output stages. Note that the analog output level controls do not affect any digital processing or digital output levels. However, the analog outputs still function while the digital outputs are engaged.

Meter Select Switches

These lightpipe switches select between analog input and output monitoring for the Level Meters.

Level Meters

These meters monitor either analog input or output, depending on the orientation of the Meter Select Buttons.

LCD Display

The large LCD display shows the program, curve, digital meters, parameters, and modules selected by the Function Buttons and the Data Wheel.

Data Wheel

The Data Wheel changes selected parameters, programs and modules.

Function Buttons

The Function buttons activate the programs, modules, utilities, and parameters of the DDP.

Power Switch

Turns the DDP on and off.

Rear Panel

IEC Power Cord Receptacle

IEC Power Cord Receptacle.

Digital I/O (Optional)

The optional Digital I/O card provides digital input and output capabilities in either AES/EBU or S/PDIF formats at 24 bit word lengths.

IDI In and Out/Thru Connectors

These connectors provide full MIDI functionality to the DDP. The Out/Thru jack allows you to use the DDP at any point in the MIDI chain. All automation functions are accessed through the MIDI connectors.

Analog Inputs and Outputs

Each analog channel features both XLR and 1/4” TRS electronically balanced inputs and outputs. They may be used in a balanced or unbalanced configuration. To use unbalanced signal, use a 1/4” TS jack, or ground pin 3 of the XLR cable.

Section 2: The DDP Tour

Signal Flow

The following simple illustrations show how audio signal flows through the DDP, and how the LCD display works. They will help you to understand where the DDP’s metering points are located, as well as identify the var-

ious elements of the LCD display.

Section 2: The DDP Tour

SOFTWARE

The DDP software works on a hierarchal philosophy. Every program number consists of a processing “setup” which is built from processing elements that make up a “chain”. There are several preset chains which may be used to produce a desired effect. Once the desired effect is reached, you may rename and save the setup to a user library area. The setup’s chain may consist of any or all of the following: gating effects, compression effects, limiting effects, parametric EQ, sidechain parametric EQ effects, and/or de-essing effects. There are several preset mono and linked setups. For a complete listing of the setups in the DDP, see section 6. Processing setups are linked together using True RMS Power Summing™ (see section 8) for superior stereo operation, or two separate setups may be used in dual mono mode. Each element of the chain has a full complement of parameters that can be manipulated very precisely via the Function buttons and the Data Wheel. The following figure shows the hierarchal building block system used in the DDP.

Setups and Programs

Setups are recalled, manipulated and stored individually. Setups must be recalled into programs before they can be accessed for use. Each program has a number assigned to it, and consist of a linked setup or two independent mono setups.. Following is a brief description of the various processor elements that make up the DDP.

Section 2: The DDP Tour

Figure 3: Program Components

Gate:

The gate is a dbx expander/gate which gives control over the “ramp” or ratio of the opening, There are also Attack, Hold, and Release times available. Transient Capture Mode™ is also found in the Gate section, with variable delay times available.

For a complete list of the parameters available in the gate, see section 4. For an explanation of Transient Capture Mode, and its implementation in the DDP, see Section 6.

Compressor: The compressor offers comprehensive control over all parameters. OverEasy® is present, with a variable knee feature (VariKnee™) found only on the DDP. Auto attack and release, and a hold feature make the compressor more unique than other compressors.

For a complete list of the parameters available in the compressor, see section 4.

Limiter: The limiter offers precise control over Threshold, Attack, and Release. Release times are set in the measurement standard dB/ms.

For a complete description of the limiter, see section 4. De-Esser:

The DDP’s de-esser allows a wide frequency control range

between 800Hz and 8kHz. The range is wide enough to accomplish the most demanding of de-essing needs.

For a complete list of the parameters available in the de-esser, see section 4.

Sidechain EQ / In-Line EQ: The DDP offers you the ability to do EQ processing in the sidechain circuit without having to hook up an extra unit. It’s easy to perform frequency-specific contouring functions all within the DDP’s software. Also in the EQ section is the new TSE™ Tape Saturation Emulation algorithm, which works in tandem with the TYPE IV™ Conversion System to capture the essence of any analog signal in a pleasing way never accomplished before.

For an explanation of the EQ functions of the DDP, see section 4. For information on the TYPE IV™ Conversion System and its implementation in the DDP see Section 6.

Dither:

Ditherng capabilities are available to users who have the DDP Digital I/O module installed. Dithering allows you to optimize the digital performance of the DDP’s 16 and 20 bit digital output.

For a complete description of dithering, see section 4.

ANALOG CONNECTIONS

The DDP is designed to interface as easily as possible to your system. To that end, it may be used in the insert path of a console, in a patch bay, or as a group output processor. Figure 4 shows the DDP used in an insert point of a console. Analog audio connections are made using standard XLR or 1/4” TRS cables. The rear panel is marked as “Channel One” and “Channel Two” to correspond to the way the DDP’s software identifies the two channels of audio. If you are used to using the “left/right” identifiers and plan to use the DDP in such a system, just ensure that each channel of the DDP is consistent in its hookups between the inputs and the outputs (ie: if you use the DDP’s Channel One input in the “left” side of your system, make sure that Channel One’s output also goes to the “left” side of your system). Refer to the illustration of the DDP rear panel on the previous page.

The DDP uses wide ranging analog input and output gain pots that allow the use of either -10dBV or +4dBu connections without the use of a sensitivity selection switch.

DIGITAL CONNECTIONS

If you have purchased the optional digital input / output module for your DDP, you have the ability to perform complex dynamics processing tasks on digital signals without having to leave the digital domain. The DDP Digital I/O also offers the ability to convert analog to digital signals using the proprietary dbx TYPE IV™ Conversion System. The dbx TYPE IV™ algorithms capture an analog signal into the digital domain while maintaining the best qualities of an analog recording, and minimizing the sometimes harsh qualities of digital recordings.

When the digital card is installed in the DDP, the analog outputs are still operative, giving you simultaneous analog and digital output. When digital input is selected via the Utilities button, the analog inputs are disabled. For a complete description of the Utilities functions see Section 5.

Section 3: Setup/Basic Operation

Figure 4: DDP Insert Path Connections

Figure 5: The DDP rear panel

MIDI CONNECTIONS

The DDP has a full complement of MIDI functionality. The MIDI connectors on the Rear Panel are configured in the traditional way: with an “In” jack and an “Out/Thru” jack. The DDP can be used in common MIDI systems at any point in the MIDI chain. MIDI setup functions are accessed with the Utilities button and are generally the same as the functionality you are used to with most other MIDI devices. Program numbers and setups may be changed and bypassed via the standard MIDI commands. In addition, presets may be saved off of the DDP and reloaded via the MIDI functions. Full SysEx and Continuous Controller functions are also a part of the DDP’s architecture. A full explanation of the MIDI, SysEx and CC functions are discussed in Section 5.

THE CURVE WINDOW

After you have chosen a program, you will want to change some of the parameters to meet your specific needs. One of the most useful tools available on the DDP for setting up a proper compression curve is the curve window. In the curve window you can see the combined effects of all dyanamics-related parameters expressed in a graphical format. The figure below shows the different parts of the curve window you will see as you edit the gate, compressor, and limiter functions of the DDP.

When working with the sidechain EQ, or the in-line EQ, the curve window changes to show a graphical representation of the 3 parametric bands in a frequency grid. Your adjustments to the three bands are shown in real time.

Additionally, the de-esser has its own graphical way of displaying its parameters, as seen below. The frequency is shown on the bottom, or X axis, and the low frequency rolloff is shown on the side, or Y axis. Again, changes to the parameters are updated in real time.

Section 3: Setup/Basic Operation

Figure 6: The compression curve window, the EQ window, and the De-Esser window.

SOFTWARE NAVIGATION

Threshold Metering

On every program, you will find threshold metering for each element of the processing setup. These take the same form as the now-standard dbx 10 Series processors’ threshold meters: a plus (+) or minus (-) sign in a square box.

Compressor

For the compressor, the threshold meter has three segments. (See figure 7 above.) The first is the minus (-) sign. It indicates that the threshold that is set in the compressor section is not being exceeded by the program material. There is no processing taking place in the compressor section if the threshold is not being exceeded, no matter what the other compressor settings are. The next part of the threshold meter is the “o”. It represents the OverEasy range of compression. When the signal level is in the OverEasy® range, the “o” part of the meter will be blackened, indicating that the signal is in the soft knee mode of compression. (For a complete explanation of the OverEasy® parameter, see section 4.) The third segment of the compressor meter is the plus (+) sign. It is blackened when the signal is being fully compressed at the ratio set by the Ratio Parameter control.

Limiter

The limiter’s threshold meter works on the same principle: when the signal is under the threshold setting (which is set in the limiter section), the signal is not being processed by the limiter section. If the DDP’s screen shows that you are getting gain reduction, it is through some other chain element. To determine which element is triggering gain reduction, look at the other threshold meters to determine which element’s threshold is being exceeded by the signal. When the signal exceeds the threshold set in the limiter section, the plus (+) sign will darken, and gain reduction will begin to occur as a result of the signal exceeding the limiter’s threshold.

Gate / Expander

When the signal is under the threshold set in the gate section, the gate is “closed”, or signal is being attenuated. When the signal is under the threshold, the minus (-) sign is darkened, and when the signal passes over the threshold, the plus (+) sign is darkened.

De-Esser

The De-esser also has a threshold meter. The threshold meter for this element is also displayed in the upper left corner. When the plus sign is reversed - white “+” on black background, the threshold has been exceeded and de-essing is being applied to the signal.

Section 3: Setup/Basic Operation

Figure 7: The DDP’s threshold meters

Compressor Threshold Meter Gate Threshold Meter

Limiter Threshold Meter De-Esser Threshold Meter

Operating Modes

Program

The DDP comes ready to turn on in “Program Mode”. There are a series of 50 factory programs, as well as enough room to name and store up to 50 of your own programs. The factory designed programs have been given obvious names, according to application and should be a good jumping off point for all of your processing needs. They cannot be erased. Their names and characteristics are listed in section 5. At the factory, the factory-designed programs were also copied into the re-writable user program area. A user program can be erased at any time by saving a new program in its place.

After you have set up and turned on the DDP, it will be in “program” mode and will show something like the following in the middle section of the LCD display screen:

The large number on the display indicates the program number. It is the method used to bookmark programs, and all programs have a program number. Each program can store either a linked setup, or two dual mono setups.

There are two ways to take a look at the setup for any program:

1. While in “program” mode, the display will show the chain for each setup in the curve window, located on the far right side of the display. The abbreviation for each chain element is as follows:

Equalizer: EQ Gate: G Compressor: C or Cmp

Limiter: L De-Esser: DS Sidechain EQ: SEQ

Section 3: Setup/Basic Operation

Figure 9: Display showing elements of each setup in a dual mono program.

Figure 8: Sample display showing Program #28, Setup 1 is “small Voc” and Setup 2 is “De-Ess Voc”.

Program

Number

Channel

Identifier

Gain

Reduction

Meter

Program

Name

Channel 1

Setup Name

Channel 2

Setup Name

Channel 1

Chain Type

Channel 1

Threshold Meters

Channel 2

Chain Type

Channel 1

Threshold Meters

2. Press the “CH 1” or “CH 2” button, (depending on which setup you want to look at) while the “program” button’s light is on. You are now in “setup” mode. This method lets you see the setup for one

channel at a time. The contents of the setup type will be displayed in the third line of text. As you press the CH1 or CH2 button, the program LED will go off, and the LED on the button you pressed will light, indicating that you are now looking at channel one’s (or two’s) setup. In addition to this visual feedback, there will be text which says “USER setup” or “FACTORY Setup” in the curve win- dow on the far right side of the display. By turning the Data Wheel, you can scroll through setup library. You will notice the various factory setups as well as all your user setups in the user setup libraries. You can store up to 100 linked setups, and 100 mono setups. As you do more projects with your DDP, you will begin to gather all types of setups that you have designed and saved for yourself.

To get out of setup mode and back to program mode, simply touch the program button. The LED associated with the Channel button will turn off and the Program button LED will turn on.

While in program mode, you may scroll through the different factory designed programs by simply turning the Data Wheel. By default, the DDP is shipped with the AutoLoad feature activated. This means that the program number displayed on the screen is the one which is active, scrolling though the programs cancels any changes you made to the program you last edited. (See Section 4 for details on editing and storing programs and chains, and Section 5 for more information on AutoLoad and other utility features) In AutoLoad ON mode, it may be wise to scroll through programs while in “Bypass” mode, or turn down the system’s output levels to avoid possible gain changes from one program to another. Enter Bypass mode by pressing the Bypass button. Its LED will light indicating that the DDP is in Bypass mode.

The Bypass Button

The DDP’s meters continue to operate in bypass mode, giving you the ability to change and adjust parameters while bypassed. Refer to Figure 1 for more information on where the DDP’s metering points are located. It may take a little practice to adjust parameters without being able to hear the effects of the adjustments. However, this feature is very useful in that it allows you to change programs, setups or parameters in a live situation without subjecting your audio system or an audience to the sudden change. Simply bypass the DDP, make your changes, make sure the meters are showing the desired effect, then take the DDP out of Bypass mode.

Setup Mode

Setup mode is the method by which you will manipulate parameters to make them fit your application exactly. While every effort was made to produce factory presets that work for most applications, it should be noted that no two systems, situations or applications are exactly alike. Therefore you will have to change and fine tune the parameters in the chains that have been provided for you. As you become familiar with this process, you will become more adventurous and creative in setting up your DDP for various applications. In dual mono mode, each chain is manipulated separately. In linked mode, the stereo pair shows up on the screen as one chain, and therefore only needs to be edited once.

Section 3: Setup/Basic Operation

“CH 1” Button

“CH 2” Button

“PROGRAM” Button

Figure 10: Function buttons and LCD display in chain mode.

There are five different linked chain types built in to the DDP. Every linked setup uses one of these five chain types. From these chains you can customize your own unique setups by modifying the chain’s parameters. They are listed below.

Section 3: Setup/Basic Operation

Figure 11: Available linked chains

External Sidechain and the Digital Meters

The DDP’s external sidechain path offers you the ability to use other processors in the sidechain path. The digital meters give you comprehensive feedback for ease of setup. Note in figure 12 above where the metering points are for the digital meters when the DDP is in external sidechain mode. The Channel One meters will be showing signal whether or not there is signal being passed through the sidechain. The Channel Two meters also show on the way to the sidechain device as well as coming back form the device. When you press the Bypass button in sidechain mode, both input meters will continue to operate, allowing you to see levels while bypassed.

There are also six different mono chains available to any dual mono program on the DDP. Three have in-line 3band parametric EQ and three have sidechain EQ. They are listed on the following page:

Section 3: Setup/Basic Operation

Figure 12: DDP Linked Chain Type #3 Audio Connections

Section 3: Setup/Basic Operation

Figure 13b: Available Mono Chains

From Program Mode (press the Program button), you can enter setup mode by pressing either the “CH 1” button or the “CH 2” button. Notice that when you do, several things happen on the screen:

1. The reversed-text channel number (either “1” or “2”) to the right of the program number will light, indicating the “active” channel. The other number will go out. (If you are working with a linked setup, both the “1” and “2” will light, as well as the word “link” between the two numbers.)

2. The first line of text says. “Ch 1 Setup”. The second line of text indicates the setup’s title.

3. The third line of text shows the elements of the setup’s chain in their proper order.

4. The curve window shows text reading “FACTORY setup”, or “USER setup”.

5. Using the Data Wheel, scroll through the available setups. You should recognize these from the previous pages. The chain that is displayed in the window is the one that is active. All the DDP’s factory setup names are listed in Appendix #1, page 24.

Viewing Elements of a Chain

Individual elements of every setup chain may be viewed and their parameters manipulated. We have provided you with a full slate of parameters for each element. They are described in section 4.

Linked Programs

Select a linked program. If you want to edit the parameters of a linked setup, simply press the function button that corresponds to the element you want to edit. For example, if you wish to edit the parameters of the compressor, just press the compressor button. It will light up, as will the compressor icon to the right of the program number on the DDP’s display, indicating that you are ready to edit the parameters of the compressor. As you do so, the STORE button will light indicating that you have made changes to the parameters and must store them in order for them to be saved for later use.

Dual-Mono Programs

Using a dual mono program number, (one without the “LINK” icon lit between the “CH1” and “CH2” icons) select the element you wish to edit by simply pressing the corresponding function button, like the Compressor button, for example. Note that as you do, the icon corresponding to the element lights up beside the program number, the function button lights up, and the top line of text shows the element being edited. Also note that either the CH1 or CH2 icon is lit. It lets you know which channel’s compressor you are editing, for example. To edit the other channel’s compressor, simply press the Compressor button again. Everything stays the same except for the CH1 icon has turned off and the CH2 is lit. You can switch between channels in this way from any chain element. If the CH1 and CH2 setups are different from each other, trying to switch to an element not present in the other setup will result in nothing happening at all. You will remain

in the channel that contains the element you selected.

Section 4: Editing/Saving/Recalling Programs

Setup mode in dual mono

Setup mode in linked mode

THE STORE BUTTON

Whenever a parameter has been changed, the Store button will light, prompting you that there have been changes made to the setup. If you want to keep the changes, you must store the new setup. You may choose to rename and save the setup in the setup library. Or you may choose to abandon your changes when you leave the program for another one. Refer to the end of this section on page 20 for complete instructions for saving setups.

MOVING AROUND

Since there are only three parameters viewed at any one time it is necessary to have multiple “pages” of parameters. The gate has three pages of parameters, for example. On the first page of the gate section there is: Gate ON /OFF, Threshold, and Ratio. The other pages can be seen by pressing the NEXT PAGE / PREV PAGE buttons. The number of the current page is shown to the right of the program number and under the chain identifying numbers in reversed-text. See Figure 14 below.

The SELECT button moves the cursor between the three lines of parameters on each page, and the DATA wheel changes the parameter that is selected. Note that in order for any changes to be heard, the element must first be in the “on” position.

EDITING GATES

Parameters of the Gate

The parameters included on the DDP for gating operations are as follows:

Gate: (Off/On) This is a bypass for the gate section. Turning it to “off” darkens the plus (+) sign, indicating that the gate is passing signal through, regardless of the other gate settings.

Threshold: (From -75dB to 0dB) The threshold range goes from -75dB to 0dB. With the threshold set towards 75dB, it takes less signal level to “open” the gate. A setting closer to 0dB requires more amplitude or level to open the gate. As you move the threshold around, notice the behavior of the curve window. The “knee” of the threshold moves up and down according to your setting. Moving the threshold “up” means it takes a louder signal to exceed the threshold.

Ratio: (From 1:1 to 1:∞) The gate ratio sets the amount of gain reduction. (With a lower ratio setting, the gain reduction is lower than a higher ratio.) For mild gating effects, or downward expansion, set the ratio around 1:2, or for more extreme effects set it to 1:∞. For example, a setting of 1:2 means that for every 1dB that the signal is below the threshold (say, 4, for example), the gate imposes 2dB of gain reduction on the signal (for a total of 8dB in this example). As you move the ratio control around, notice the action of the curve in the curve window.

Attack: (From 0.1ms to 200m) As the signal reaches the threshold area, the Attack control sets the speed at which the gate opens. Use very fast attack times to catch the fronts of transient signals.

Section 4: Editing/Saving/Recalling Programs

Figure 14: Gate parameters and curve

Threshold knee

Gate ratio

Chain

Program page number

Hold: (0ms to 500ms) The Hold control sets the amount of delay time the gate is held open after the signal passes below the threshold point.

Release: (From 360dB/sec to 5dB/sec) Release sets the speed at which the gate “closes” after the end of the Hold time is reached.

TCM™ : (Off/On) Transient Capture Mode™ is the method by which the gate is able to catch the very beginnings of fast transient signals. Using TCM™ results in a smoother sounding signal, because of the increased ability to use slightly less aggressive settings and still achieve the desired effects in gating, compression, and limiting.

TCM™ Time: (From 0µs to 3ms) TCM delay time is the length of time the audio signal is delayed, allowing the detectors to begin to react to the signal. For a complete explanation of TCM™ Transient Capture Mode™, see section 6.

EDITING COMPRESSORS

Parameters of the Compressor

The parameters included on the DDP for compression operations are as follows:

Compressor: (Off/On) As with the gate, the compressor section must be turned on to be active. The curve window will show the compression threshold, as well as the ratio and gain levels.

dbx OverEasy®: (Off, Knees 1-10) Activating the OverEasy® threshold characteristic softens the compression knee, making the transition between uncompressed and compressed signal as seamless as possible. In addition to having the on/off setting, you may choose varying knee curves with the VariKnee™ variable knee algorithm (see figure below). Selecting Knee #1 activates the curve next to the hard knee curve, #2 selects the next softer knee, etc., up to Knee #10, which is the softest knee. Figure 16 below illustrates the varying degrees of OverEasy soft knee settings that VariKnee™ provides. Although the curve window does not indicate the softness of the knee, be aware that this kind of flexibility in knee settings is available when you change the VariKnee™ settings.

Section 4: Editing/Saving/Recalling Programs

Figure 15: Compressor parameters and curve

Threshold point

Compressor Ratio

Figure 16: OverEasy® VariKnee™ curves

Knee #1 - Small OverEasy range

Knee #10 - Larger OverEasy range

Input

Output

Auto Mode: (Off/On) Activating Auto mode disables the Attack, Hold and Release controls. Attack and release settings become fully program-dependent, and manual changes in the settings do not have any effect on the audio signal or the response of the compressor. Auto mode is especially effective on signals such as vocals or other highly dynamic signals. Most factory setups use Auto mode because of its ability to perform smooth compression under widely varying circumstances.

Threshold: (From -60dB to +4dB) Setting the threshold is the same on the compressor as it is on the gate or limiter. There is a visual representation of the threshold on the curve window, and as you edit the parameter, you will see motion up or down on the curve window, allowing much greater understanding of the effects of each parameter on the entire compression algorithm.

Ratio: (From 1:1 through ∞:1) As the signal passes through the threshold region, it begins to be compressed at the rate set with the ratio setting. It is expressed in a ratio for ease of use, for example, with a ratio setting of 4:1, the signal would have to increase by 4dB in input to increase the output by 1dB. With the wide-ranging control on the DDP, it is possible to achieve very smooth, transparent compression as well as heavy, “in-your-face” compression effects.

Gain: (From -20dB to +20dB) When a signal is compressed, by definition some of its gain is taken away. It therefore typically becomes necessary to boost the now-compressed signal back up to a useable level. By doing so, the average signal level has been increased, so it sounds louder than before compression. As you make this adjustment you can see the effect in the curve window. Note that if you add too much gain, the clip icon willappear in the curve window. If this happens, either reduce the gain or use the limiter. The compressed signal is now more dynamically controlled and can be boosted to a level that was not possible before it was compressed.

Attack: (From 0.1ms to 200ms) As the signal exceeds the threshold, the speed at which the compressor begins to react is set by the Attack control. Its range is from very fast to somewhat slow, allowing you to have all the control you want. The Attack control is active when not in Auto mode (see Auto mode above).

Hold: (From 0ms to 500ms) The hold time sets the amount of time the compressor waits before it begins to release after the signal passes below the threshold. If the signal goes back above the threshold, the hold time is “restarted” and will hold the compressor at that amount of gain reduction for the set time, after the signal once again moves below the threshold. The Hold control is active when not in Auto mode (see Auto mode above).

Release: (From 360dB/sec to 5dB/sec) The release control sets the speed at which the signal is returned to normal level after it has gone below the threshold, and the Hold time has been exceeded. The Release control is active when not in Auto mode (see Auto mode above).

When Auto Mode is activated, the Attack, Hold and Release controls

are program-dependent and are not affected by your manual settings.

Section 4: Editing/Saving/Recalling Programs

EDITING LIMITERS

Parameters of the Limiter

The parameters included on the DDP for limiting operations are as follows:

Limter: (Off/On) Again, the limiter must be turned on to be able to change the parameters and affect the signal. The curve window shows the threshold point of the limiter.

Threshold: (From -60dB to +4dB) As you move the threshold of the limiter up and down, you see the output level of the DDP move in relation to the setting. This means that the limiter of the DDP sets the maximum output level for the unit. Remember that very fast transient signals can occasionally “sneak” past the threshold control of a limiter. If you wish to catch every single transient, set the TCM to a longer delay time, allowing the DDP to begin to react to a transient signal faster. (For complete information on the TCM™ Transient Capture Mode controls, refer to the gate section on pages 14 and 15, as well as Appendix #1) Also note that the digital meters are peak hold meters and they will indicate the same level. whether one sample or hundreds of samples reach that level. This can be disconcerting, given the fact that it appears that much more signal actually gets through the threshold. Also, it is possible to set the threshold of the limiter below the threshold of the compressor, causing all of the gain reduction to happen in the limiter, and none to happen in the compressor. As you do this, you will notice that the curve window displays exactly what the threshold level is set to, even to the point of “overriding” the compression settings. Move the threshold level of the limiter up and down to see how this effects the composite compression curve. Limiting takes place after the compressor’s gain control setting.

Attack: (From 0.1ms to 200ms) The attack control sets the speed at which the signal is limited as it crosses over the threshold into the limiting region.

Release: (From 360dB/sec to 5dB/sec) The release control sets the speed of release of the signal as it goes below the threshold, out of the limiting region, and is returned to its normal, unprocessed waveform.

EDITING DE-ESSERS

Parameters of the De-Esser

The parameters included on the DDP for De-Essing operations are as follows:

De-Esser: (Off/On) Enables or deables the de-esser. When you are not using the de-esser, it should be turned off.

Section 4: Editing/Saving/Recalling Programs

Figure 18: De-Esser parameters and curve

Frequency above which the de-esser is sensitive

Figure 17: Limiter parameters and curve

Limiter threshold

Limiter output level

Frequency: (From 800Hz to 8kHz) The Frequency control is much like an audio threshold point as it relates to frequency, rather than amplitude or level. Above the set frequency point, the de-esser is sensitive to excessive HF energy. As you scroll through the control area you will see the curve move in accordance to your settings. For the female voice a good starting point is in the 5-8kHz range, and for males the range is a little lower, about 3-6kHz.

Amount: (From 0% to 100%) The Amount control varies the amount of de-essing. For light de-essing set it low, and for a heavier effect, set it higher.

EDITING THE DITHER PARAMETERS

Parameters available under the Dithering menu:

The parameters included on the DDP for Dithering operations are as follows:

Dither: (Off/On) Enables or disables dithering. Note that dithering is only available in whle in Linked mode, and affects the digital output of the DDP. Therefore, you must have the optional digital I/O card installed in order to use the dithering functions of the DDP. The dithering functions are accessed via the DS/DTH key on the front panel of the DDP, while the DDP is in a linked chain containing the dithering module.

Bits: (16, 20, or 24) The Bits parameter controls the number bits that are output at the digital output of the DDP. A setting of 24 bits essentially sets the DDP for no dither, since the DDP defaults to 24 bit output. The 24 bit setting is ideal for computer digital workstations. Setting the dither setting to either 16 or 24 bits dithers the 24 bit signal down to either 16 or 20 bits, depending, of course, on the parameter setting (for a complete explanation of the implementation of the dithering module on the DDP see section 6, Appendix 2).

EDITING THE SIDECHAIN EQ AND THE IN-LINE EQ

Parameters of the EQ

The parameters included on the DDP for EQ operations are as follows:

Off/on: Like any other element, the EQ must be turned on.

Monitor: (Off/On) If you are using a program number that has the sidechain functionality enabled, the next para-

meter you see will be MONITOR. The sidechain monitor can be useful for identifying and centering on specific frequencies.

Section 4: Editing/Saving/Recalling Programs

Figure 20: EQ parameters and curve

Figure 19: Dither parameters

TSE mode: Dark, Warm, None, Light, Bright: There are five TSE™ Tape Saturation Emulation settings in the DDP. TSE™ is tied to the TYPE IV™ Conversion process, and allows you to add definition to your recordings in pleasing amounts of your choosing. Because TSE™ is related to the analog to digital conversion process, its settings are inactive while processing a digital source. (See Appendix 1.)

Bands 1, 2, and 3: The EQ is a three band parametric. It allows adjustments of frequency center, Q, and level.

Frequency Center: (From 25Hz to 20kHz) You can choose a center frequency from 25Hz to 20kHz all three

bands of the EQ.

Q: (From .25 to 16) “Q” is a setting that corresponds to the width of the frequency band. For example, a Q of 8 or 16 will produce a very sharply pointed EQ setting, affecting very few frequencies around the selected frequency center. A Q of .5 or 1 produces a very wide range of effect around the center frequency. The effect is a broad, smoother EQ setting.

MORE ABOUT SIDECHAIN EQ

The sidechain functions are convenient in many applications, such as broadcast engineering, where engineers are asked to provide “ducking” functions, as well as de-essing. Frequency-specific and sustain-related compression are also possible with the use of the sidechain functions of the DDP.

It is possible to separate certain vocals and instruments from a mix using frequency-weighted compression. With the 3-band parametric EQ in the sidechain path, the equalization settings do not directly shift the timbre or frequency response of the audio signal. They merely alter the threshold response of the processing section of the DDP on a frequency-weighted basis.

With this arrangement, raising certain frequencies on the sidechain equalizer causes them to be suppressed in the audio signal. A relatively high threshold setting can allow normal sounds to be unaffected while solo and very loud sounds are held back. (Of course, when compression does occur, the level of the entire program is affected.) Depending on the threshold setting, lower level signals will not cause compression.

During the recording of cymbals and tom-toms, a compressor with an equalizer in the sidechain path can help prevent tape saturation. The equalizer can be adjusted for boost with a peak of about 5kHz, causing the cymbal to be compressed on a very loud crash, stopping tape saturation at high frequencies, where there is less headroom. However, gentle tapping of a drumstick or brushing of the cymbal will not be held back. Assuming the tom-tom is a lower frequency instrument and can be better tolerated by the tape, it has less need for compression. This equalization in the sidechain circuit means that the compressor is not triggered as readily by a loud tom-tom beat as by an equally loud cymbal crash.

The converse of the above EQ technique may be used: dipping the equalizer bands causes any sound with dominant energy in the affected register to pull the level up because the DDP will detect a need for less compression.

To apply de-essing to vocals without using the De-Esser element, use the parametric equalizer in the sidechain circuit and set it for high frequency boost in the specific frequency range where the vocal hiss or lisp occurs (generally in the 4-6kHz region). This pre-emphasizes the already hissy vocal input to the detector. Used in conjunction with a moderate to high threshold and compression ratio, this arrangement greatly attenuates the essing without affecting the basic sound quality or balance of the voice. While it is true that all frequencies are lowered in level when the compressor is triggered, generally the sss sound occurs alone, before or after the dominant tone in the voice. To hear an example of this type of setting, listen to the factory setup called “De-ess Vocal.”

Section 4: Editing/Saving/Recalling Programs

To increase the sustain of a musical instrument (e.g., a guitar or bass), use the sidechain circuit and boost the EQ in the dominant frequency range of the instrument, along with a fairly low threshold and a moderate compression ratio.

The sidechain path may also be used to reduce the effects of low frequencies on the compressor. Using the EQ to de-emphasize low frequencies allows the detectors of the gate, compressor, and limiter elements to react only to the more musical parts of the audio signal. This method greatly reduces the “pumping and breathing” that can occur in compressors.

The in-line 3-band parametric EQ works in the same way as the sidechain EQ. It is a 3-band parametric EQ that has variable Q and a +/-12dB boost or cut ability in each of the 3 bands

CHANGING CHAIN TYPES

Users who wish to configure the DDP “from the ground up” may do so. While in program mode and on any program number you may press, hold, and release the Program button to enter the CONFIG SETUP mode. This takes you to a screen that says “Config Setup” in the top text line under the program number. In the second line of text you will see the cursor and the current chain in any stereo setup. You can scroll between chain types and choose one of them for your setup by pressing the store button.

If you are using a dual mono program, the screen will allow you to choose two different chain types from among the 6 chain choices. Once you have chosen the chain types, you will need to store the new program you have created. You may save your work at any time. If you like to live dangerously, just save before you finish the session, or save more often, it’s up to you. The store LED will light as you scroll to new chains, indicating that you must press store in order to make the current selection active in the program you are in. After you have pressed store, press program again and you will return to program mode. You will need to setup each element of the processing chain. Note that when you choose to create a setup from the user config menu, all the parameters of the chain are turned to the nominal or off position, depending on the parameter.

SAVING PROGRAMS AND SETUPS

Saving a program

The most important part of saving your processing library is realizing the following

Saving a program is done by following these steps:

1. Press the Store button. The screen looks something like this.

2. You have the choice of saving the Program, or Saving the setup. Choose the first option by simply pressing the Store button while the curser is in front of the word “Prog”.

3. As you do this, the screen goes to the next save page, asking you to name the new program. The curve window shows instructions. Using the Data Wheel as a “selector” and the Page Up / Page Down buttons as the cursor, create the name you want to use, then press the store button to save the name.

PARAMETERS ARE ASSOCIATED ONLY WITH SETUPS, NOT WITH PROGRAMS

Section 4: Editing/Saving/Recalling Programs

Figure 21: Store program

4. When you have named the new program, press store again. the screen bumps to the next save screen, asking you to select a program for the DDP to erase and write the new program over. Note that you can only access programs 1-50 in this screen, as that is the only area where you can write new programs over old ones. Select the number where you want to write the new program and press store once more. Momentarily the screen will say “Done!!” in the first line of text.

You have now saved a program consisting of two setups or one linked setup.

For example, if you chose to save Program #40, with setups “Slap Bass” and “Thick Kick”, the information you have saved is the following:

Program #40 uses: setup “Slap Bass” and: setup “Thick Kick”

Setups contain parameters. In order to save parameter settings you must save the setup.

Saving a setup

Saving a setup can be done by following these steps:

1. After you have edited your setups to your liking press the Store button. The screen will look like fig-

ure 22 below. Move the curser down to either CH 1 Setup, or CH 2 Setup, if you have been editing a dual mono program. If you have been working with a linked program, your second choice will be “Link Setup”. Make your selection by pressing the Store button again. Remember that there is room in the DDP to store 100 linked setups and 100 mono setups, in addition to the factory setups.

2. Like above you are asked to name your setup. Again, there are instructions for you in the curve win-

dow. Press Store when you are done. Also, page 20 gives more detailed saving instrucions

You now must choose what you want to do with the setup you are going to save. You have two choices: you may write over another setup, or you may make a new one. These two choices are explained in more detail on the next page.

NOTE: YOU HAVE NOT SAVED ANY PARAMETERS AT THIS POINT.

Section 4: Editing/Saving/Recalling Programs

Figure 21: Store setup

Replace Old: Notice that as you write over an old setup, all other programs that recall that setup will now recall the newly saved setup.

1. To replace an old setup, move the curser to the Replace Old choice and press Store. You are given a choice of which setup to replace. Using the Data Wheel

scroll to the name of

the setup you wish to replace with your new setup. Press Store.

2. After a brief pause, the screen will display the text, “Done!!”, and you have saved a setup over the old setup that you chose. If you wish to save your setup to a new spot without erasing any other setups use the following instructions:

Store New:

1. To store a new setup, choose Store New after pressing the store button. Again, you must name your new setup. After you are done, press Store once again. You now must choose a place for the new setup to be placed in the setup library. The name of your new setup is displayed on the middle line of text (the “Parameter 2” spot).

2. Use the Data Wheel to scroll to the place where you want to the new setup added. As you scroll, notice the names of the setups already in the library scrolling by on text lines 1 and 3 (parameter 1 and parameter 3). This indicates that you are placing your new setup between the two setups displayed above and below your new one. The DDP “makes room” for your setup, no matter where you want to place it.

3. Pressing Store once more saves the setup in the spot you chose, and after a brief pause, the screen display the “Done!!” line and you have saved a setup, complete with all parameters, ready to use next time.

NOTE: TO US E YOUR NEW SETUP, I T MUST BE RECALLED INTO A PROGRAM.

Section 5: Utility Functions

UTILITIES

The Utilities menu is accessed at any time, via the Utility button. The utilities menu is the same as the other menus of the DDP. Once in the utility area, the LED will light on the Utility button, indicating the selection. Different menu selections are shown in the three lines of text below the program number. When you are using the utilities menu, the DDP continues to pass signal, and displays the current program number without interruption. Following is a brief explanation of the different utilities and their parameters:

Contrast

The contrast selection is always shown on the first line in the “Parameter 1” position, and adjusts the displays visibility.

Sample Rate

The next utility is Sample Rate. This utility changes the output sample rate. The choices are: 44.1kHz or 48kHz. As technology advances, future software and hardware updates will include other options. The DDP is currently shipped with the 48kHz choice as the default. However, in “digital Input” mode, the sample rate is “locked” to the sample rate of the digital input signal. To help you remember, the display window will show text to this effect.

AutoLoad

With the AutoLoad feature, you may choose whether the DDP will immediately load the program number on the display, or whether you must be prompted to load the current number into the audio path. With AutoLoad in the ON position, the DDP automatically loads the current program into the audio path without a prompt. While this can be convenient, care should be taken, because if you move the data wheel while in program mode AFTER you have changed parameters in the current program, the program number will be changed and the changes to the first programwill be lost as the DDP moves to the next program number and loads it into the audio path automatically. In addition, if the DDP is used in a live sound situation, the ramifications could be disastrous if someone bumped the data wheel while signal was being passed through the DDP. With AutoLoad in the OFF position, you can scroll to other program numbers without affecting the sound being passed through the DDP. As you make any changes to a program, the Load button will flash, telling you that you are in a program number other than the one you have had loaded into the audio path. One press of the LOAD button loads the currently displayed program number into the audio path, and dumps the previous program number from the audio path. AutoLoad mode is best used when changing Program numbers and changing parameters within the given setups. In a live setting, AutoLoad should be “OFF” when you want to change setups within any specific Program number.

If you move from the loaded program, the Load button begins to blink, indicating that you are looking at processing chains other than those that are currently loaded into the audio path. As you return to the previously loaded program, the Load button turns off, as there is no need to “re-load” the current program, because it has already been loaded, and is in fact the current program number in the audio path.

Input Mode

This page is not visible if you do not have the optional Digital I/O card installed in your DDP. If you have the optional Digital I/O card installed in your DDP, this page refers to setting the input format of the DDP and its sync characteristics. You can set the input and output independently to either AES/EBU or S/PDIF formats. The analog outputs still operate regardless of the settings in this utility. The input has the ability to sync itself to various source devices. In analog mode with internal sync selected, the DDP is using the internal digital clock for its source. In analog mode with AES/EBU sync selected, the DDP is using an AES/EBU source device’s clock as the master. In analog mode with SP/DIF sync selected, the DDP is looking for an SP/DIF clock source at its digital input. Syncing from an external device is used when you have more than one DDP in a system going form analog to digital. The sync source must be able to generate an AES11 compliant output signal which is fed to the DDP’s digital input connector. THis clock source is then used to “drive” the clock on all the DDPs, so that you can have them all running at exactly the same frequency. We recommend that if you are only using the digital output of one DDP, you should use the “internal” setting, and let the receiving device slave itself to the DDP. If you see an

Section 5: Utility Functions

“Input Error” message, make sure that the appropriate cables are hooked up on the back of the DDP and that your settings reflect your cable setup.

Output Mode

Digital Input Level Controls

This page is not visible if you do not have the optional Digital I/O card installed in your DDP. Note that when you are using the analog inputs of the DDP, this utility does not change the level of the signal. When the input is set to AES/EBU or S/PDIF, you may adjust the level of both the left (channel 1) and right (channel 2) channels of the digital signal. This function is helpful for balancing and fine tuning the mix of the two channels of digital signal.

MIDI/SysEx Section

The next set of utilities is MIDI based functionality. In the first parameter line, the DDP displays “MIDI Ch”. This may be set for channels 1-16, off and OMNI, which is the typical implementation. Communicating with the DDP through the MIDI language is as easy as in any other MIDI unit: program changes as well as parameter changes may be activated through the MIDI ports. In addition, the DDP allows you to send and receive “system exclusive” data and commands on channels other than the MIDI channels, allowing you to perform such complex maneuvers as complete system program dumps and reloads, system setups, and output configurations. These are the SysEx channels. SysEx channels range from 0-16 and OMNI. you may want to have all your DDPs on the same SysEx channel so they all receive the same bulk dump information, but different MIDI channels so they can be separately automated.

On the next page you can perform MIDI merging. If merging is set to the “ON” position, all incoming messsages are merged with the DDPS own generated messages to the Out/Thru jack. Midi merging is followed by CC controls. CCs (continuous controllers) are another good and easy way of communicating with the DDP. When the CC setting is set to the “ON” position, the DDP will show you the parameter being modified by an incoming CC message. This setting is useful for setting up MIDI / CC control. Once the settings are confirmed correct, this should be set to the “OFF” position, for optimum performance. For a complete guide to the full functionality of the MIDI, CC and SysEx implementation, see section 6.

Utility page 6 controls the program mapping functions. It determines which program is loaded when when a MIDI program change is recieved. For example, to make the DDP change to program 10 when it recieves MIDI program #3, change the “MIDI Prg >” setting to “3”, then change the “as Prog” setting to 10. The ability to map setting across program numbers is very useful in large MIDI setups.

Page 7 allows individual setup information to be transfered as data out of the DDP. It is useful for backing up setups to a sequencer which can recieve MIDI/SysEx dumps or for dumping a setup from one DDP to another. Under the “Type:>” setting you may choose either a linked or a mono setup to dump.

You may also choose to do a complete dump of all the DDPs parameters at once from Util page 8. Use this to make a backup copy of your DDP to a computer or data disk or to make one DDP a clone of another. All the setups (both factory and user), programs, and utility settings are sent in a bulk dump.

For complete MIDI / SysEx / CC information see Section 6, Appendix #4.

Section 5: Utility Functions

A / D Calibration

The last page of utilities is a calibration section for the analog to digital convertor chips. You will notice a set of more complete instructions displayed in the curve window area. The convertors in the DDP calibrate whenever the DDP is turned on. If you want to “force” a recalibration of the convertors, simply hold down the “Util” button as the DDP is turned on. If the calibration is not successful, the following text will appear in the third parameter area: “A/D CAL FAIL!” If this happens you should turn the DDP off then back on. If the problem persists, call dbx technical support at 1-801-568-7660 for assistance.

High-Pass Filter

The DDP has a built-in high pass filter to minimize the effects of low frequency “rumble”. The wide dynamic range of the DDP makes it necessary to provide a filter to cut off undesireable information that would otherwise not be recorded by another device. Of course, we let you decide whether it is activated or not. It is set at 10Hz, and affects both the analog and digital inputs.

Section 5: Utility Functions

APPENDIX 1: MISC. INFORMATION

Hard Reset

From time to time you may encounter a situation which locks up the DDP’s software. Usually this is due to operator error. Which means you asked the DDP to do something we did not anticipate in the implementation of the software, or something else has locked up the DDP. It may be necessary to do a “Hard Reset” Perform this only when there is no other option, either by turning off and then on, or moving to another area in the software and then back again.

To do a Hard Reset:

1. Turn the DDP off.

2. Hold down the Store button

3. Turn on the DDP.

4. When the asterisk appears in the Parameter 1 line, press Next Page button.

Change Default Startup Program

The DDP turns on in “Program Mode” and is ready to use without any other keystrokes being necessary. The DDP “remembers” the last program number used, and stores that program number as the default startup program number. Occasionally you may wish to manually manipulate this setting. Do so by holding down the Program button while turning on the DDP.

Front Panel Lockout

The DDP’s controls may also be locked, effectively disabling the front panel. Holding the Utility button while turning on the DDP displays an instruction screen telling you to press the Prev Page button to toggle the locked status. When locked, the program name line flashes between the name of the program and the text, “DDP Locked!” Unlocking the DDP controls is accomplished the same way. Note that when in locked mode the DDP can still be controlled via MIDI operations, as well as SysEx commands and CC information.

Type IV™ Conversion System

We have included the Type IV™ Conversion Process as the primary method of analog to digital conversion on the DDP. When the analog inputs are selected, the TYPE IV™ icon to the right of the program number lights up and the TYPE IV™ process takes over as the means of converting the analog signal to a digital signal. This means that you may hit +6dB on the digital input meters for the DDP and not hear any audible distortion. This behavior is not unlike an analog tape machine. In conjunction with TSE™ Tape Saturation Emulation, the essence of the analog signal is captured to the digital medium in a way that preserves the color and emulates the behavior of an analog tape recording. This process results in a digital signal that is more pleasing to the ear, and offers a more musical, useable signal for the DDP to process, resulting in master-quality sound output, whether digital or analog.

TSE™ -- Tape Saturation Emulation

Analog tape has always had a specific “sound”. In fact different brands of magnetic tape have their own peculiar sound or “color”. The color is most apparent when you drive the tape hard, almost to saturation. Conversely, digital signals have almost no “color”. If you drive a digital signal to saturation, all you get is an ugly, unuseable “digital over” sound, much like fingernails on a blackboard. As a result, the sound, while crystal clear, can have a sterile or crisp sound. It is this crispness that has been the downfall of digital signals. Tape Saturation Emulation™ is a process of giving a digital signal an analog-type sound or color, making it more pleasing to the ear. On the DDP you can drive the input past the zero mark without risking the dreaded digital “over”. Instead you get a pleasant saturation that is modeled after the sound of analog tape being saturated with signal. the controls for TSE™ are in the EQ section, and are global in effect. There are five different settings for TSE: Dark, Warm, None, Bright and Brighter. Each emulates an analog signal’s “color” and is very unique. Their names reflect their characteristics.

The controls for TSE are always active. If you do not want any coloration added to your signal, simply set the controls to “None”.

Section 6: Appendices

+ 135 hidden pages