User’s Manual DSP-2040 Antes de utilizar el equipo, lea la sección “Precauciones de seguridad” de este manual. Conserve este manual para futuras consultas. Before operating the device, please read the “Safety precautions” section of this manual. Retain this manual for future reference.
DSP-2040 DECLARACIÓN DE CONFORMIDAD DECLARATION OF CONFORMITY D.A.S. Audio, S.A. C/ Islas Baleares, 24 - 46988 - Pol. Fuente del Jarro - Valencia. España (Spain).
DSP-2040 Precauciones de Seguridad Safety Precautions Conserve y lea todas estas instrucciones. Siga todas las advertencias. El signo de exclamación dentro de un triángulo indica la existencia de componentes internos cuyo reemplazo puede afectar a la seguridad. Keep these instructions. Heed all warnings. Follow all instructions. The exclamation point inside an equilateral triangle indicates the existence of internal components whose substitution may affect safety.
DSP-2040 GARANTÍA Todos nuestros productos están garantizados por un periodo de 24 meses desde la fecha de compra. Las garantías sólo serán válidas si son por un defecto de fabricación y en ningún caso por un uso incorrecto del producto. Las reparaciones en garantía pueden ser realizadas, exclusivamente, por el fabricante o el servicio de asistencia técnica autorizado. Otros cargos como portes y seguros, son a cargo del comprador en todos los casos.
DSP-2040 Contents Introduction 3 Front panel description 4 Rear panel description 5 Operating the device 6 Editing audio parameters - Input channels 11 Editing audio parameters - Output channels 12 Input ganging and output ganging 15 Memory structure 16 Security and locking 18 Advanced audio features 20 Specifications 27 User’s Manual
DSP-2040 User’s Manual
DSP-2040 Introduction The DSP-2040 are powerful DSP based audio processors, ideally suited for install applications, where they combine the functions of a multitude of conventional products in a compact 1U unit. To achieve this, the units have up to two inputs and four outputs which can be configured in a selection of basic crossover modes – 2 x 2 way; 1 x 3 way + 1 Aux; and 1 x 4 way (as applicable to i/o configurations).
DSP-2040 Front panel description 2 3 8 1 12 9 11 4 6 14 5 10 7 13 [1]-LCD Screen: Shows, by default, the name of the last recalled memory on the bottom line of the screen, and the current routing on the top line. Also used to show all parameters as they are edited, and all menu selections. Control Keys: Selection and adjustment of parameters. [2]-NEXT key moves forward through list of parameters. [3]-BACK key moves backwards through list of parameters.
DSP-2040 Rear panel description 1 2 3 4 [1]: Power Switch: turns the unit’s mains supply off and on. Mains Fuse: located in a finger-proof holder adjacent to the mains inlet. A spare fuse is also located in this holder. Mains Inlet: connected via a standard IEC socket. [2]-RS232: RS232 standard via a 9 pin D-type connector, for connection to a PC. [3]-Audio Outputs: 3 pin XLR sockets are provided for each channel. All are fully balanced: pin 2 hot pin 3 cold pin 1 screen.
DSP-2040 Operating the device The following operating information covers setup and control of the DSP-2040 via the front panel controls only. Start-up procedure Switching on the unit will display a brief message detailing the unit type and software version running and all LEDs will briefly illuminate. The unit will then begin its countdown to the wake-up procedure, during which time the audio will fade up to the level last set. Metering will begin to operate when the fade-up starts.
DSP-2040 Routing Options and Processing Blocks Due to the completely new DSP platform, the routing possibilities within the DSP-2040 has been made completely flexible, with a matrix available allowing any combination of inputs to be routed to any output. The additional DSP power has permitted the inclusion of more processing blocks, even considering the extra inputs and outputs, and the doubling of sample rate.
DSP-2040 2 x 2 way crossover: As shown, each input feeds a pair of outputs, odd numbers being the low frequency split, and even numbers being the high part of the spectrum. Default crossover frequencies are shown by each output. “LOW” OUTPUT: 40.1Hz - 1.62kHz “HIGH” OUTPUT: 1.62kHz - 22.2kHz “LOW” OUTPUT: 40.1Hz - 1.62kHz “HIGH” OUTPUT: 1.62kHz - 22.2kHz 1 x 3 way crossover + Aux: This format feeds input A to outputs 1, 2 and 3, designated low, mid and high respectively, with Input B unused.
DSP-2040 1 x 4 way crossover: Inputs A is fed to all four outputs, with input B unused. The crossover points can be adjusted as desired. Note: Input B will be muted and cannot be unmuted. OUTPUT 1: 15Hz - 149Hz OUTPUT 2: 149Hz - 1.31kHz OUTPUT 3: 1.31kHz - 8kHz OUTPUT 4: 8kHz - 22.
DSP-2040 Free Assign Routing If none of the preset configurations are appropriate to the required system setup, it is possible to manually select the routing of the crossover. This is achieved through the ‘Crossover Menu’ -> ‘Design A Crossover’. Pressing ENTER will start the crossover design wizard, with the first option being to choose the routing. The display will show Design A Crossover -> Routing = 2 x 2 WAY * or whatever the current configuration is set to.
DSP-2040 Editing audio parameters - Input channels Input gain The range of the control over the input gain is -40dB to +6dB in 0.1dB steps. Pressing EDIT, the display shows: IPA Input A Gain Input Gain = +6.0dB Use the GAIN allow to change its value. Pressing ENTER to confirm. Base delay The maximum available delay between any input and output is 650mS. For example, if the input delay on channel A is set to 500mS, the maximum available output delay for any output fed from input A will be 150mS.
DSP-2040 Editing audio parameters - Output channels Output gain The range of the control over the output gain is -40dB to +15dB in 0.1dB steps. Pressing EDIT the display shows: OP1 Output 1 Gain Output Gain = +6.0dB Output polarity The polarity (or phase) of each output may be switched individually as below. OP1 Output 1 Polar Polarity = [+] Using GAIN, the phase may be changed between ‘-’ (inverted phase) or ‘+’ (non inverted phase).
DSP-2040 Output high pass filter The high pass crossover filter on each output has a frequency range of <10Hz up to 32kHz in 1/36th Octave steps. If you try to set the high pass filter to a higher frequency than the low pass (which would be pointless and result in no output), the message ‘High/Low Freq. Overlap!’ will be displayed. Note that to access the 48dB/Octave filters, parametric bands 6 & 7 need to be bypassed, or set to 0dB.
DSP-2040 Information: Note that 2 bands each will be lost when using 48dB slope crossover filters, resulting in a maximum of 5 bands of EQ when both high and low pass are set to 48dB/Octave. Output limiter The limiter on each output has adjustable attack and threshold, with a release time that is selectable to be a multiplier of the attack time. For example, as shown below, the attack time is 2mS and release is “x16” so 32mS.
DSP-2040 Input ganging and output ganging The method of linking inputs or outputs together during editing is achieved in the same way, so only crossover (output) ganging will be explained here. Having selected ‘Crossover Ganging’ from the menu under the ‘Crossover Sub-menu’, the current ganging set-up will be displayed.
DSP-2040 Memory structure The DSP-2040 has its memories split into sections, allowing independent recall of crossover settings (i.e. all parameters associated with outputs), and input settings. There are, therefore, two types of memory available: ‘Input Only’ and ‘Crossover Only’,also combinations ‘Input & Xover’. These, and all combinations of memory types, appear in the ‘GLOBAL MEMORY Sub Menu’, and its operation warrants a little more explanation.
DSP-2040 Through ‘STORE’ using ‘GLOBAL MEMORY Sub Menu’, we have stored 10 memories. If it is required to recall a location that contains ‘Input Only’ settings, this will limit the selection as shown below: 2, 3, 4, 6, 8, 9, and 10. But, recalling 4, 6, 8 or 10 will leave the current ‘Xover’ settings untouched. However, if it is required to recall ‘Input & Xover’ settings then 4, 6, 8, and 10 will be the only numbers available, with the option to change all the parameters.
DSP-2040 Security and locking After selecting the Security Sub Menu and pressing ENTER, select one of the lock types, choosing the most appropriate one for your application. As ever, ENTER will confirm your selection. User Specific Upon pressing ENTER to select this type of lock, each parameter group is presented in turn. Choose the type of lock (as above) using the FREQ encoder, and press ENTER to confirm each parameter. After the last parameter, the unit requests a password.
DSP-2040 Unlocking the Unit To unlock the unit press ENTER and then type the code in. This can be entered by using the FREQ control to select a character, and the BACK and NEXT keys to move to the next character. Alternatively, the EDIT keys can be used to enter a code by pressing any combination of the eight buttons. Each EDIT key represents its channel labelling, as described in the locking section. Forgotten the Password? Don't panic! Your unit can still be unlocked.
DSP-2040 Advanced audio features Program Limiter High performance digital limiters are provided for each output with control over attack time, release time and threshold parameters - see details below. This level of control allows the user to balance the required subjective quality of the limiter against the driver protection requirements.
DSP-2040 “D-Max” Clip Limiter The main limitation with traditional dynamics control is the inability of the processing to react truly instantaneously to the signal. One of the most significant advantages of digital signal processing over analogue is the ability to delay the audio signal precisely and without extensive complex hardware.
DSP-2040 The DSP-2040's “D-Max” limiter predelays the sidechain signal, resulting in a “zero overshoot” limiter, which is able to catch all peaks and provide a reliable absolute maximum setting for the output of any channel. The predelayed sidechain is shown in green, with the main signal in red. As the main signal arrives slightly after the sidechain, the output from the unit does not suffer from the overshoot problem.
DSP-2040 Setting Accurate Limiter Thresholds The limiters built into the DSP-2040 are intended to be used for loudspeaker driver protection, as opposed to amplifier protection. All modern professional power amplifiers designed for live sound use have their own limiters, which are tailored to protecting the amplifier from clipping. The following section describes how to set up the units' limiters to provide exceptional protection against driver overheating, and cone over-excursion.
DSP-2040 Crossover Filter Slopes It should also be noted that the turnover frequency displayed on the screen is the -3dB point for all types except Linkwitz-Riley where the -6dB point is shown. If the -6dB point is to be used for the Bessel or Butterworth filter, take the required crossover frequency, multiply this by the appropriate factor from the following table and then select the closest available frequency on the display.
DSP-2040 Parametric Filter Types and Their Uses A wide selection of filter types has been made available under the PEQ section when editing input or output filters. Scrolling through the various filter types is achieved by repeated presses of the ENTER key. Note that this will only change filter types if the filter is BYPASSED or the GAIN set to 0dB. Bypassing the filter, then changing types using the ENTER key will automatically set the gain back to 0dB.
DSP-2040 <- Low/High pass variable ‘Q’ filter (low pass shown) InA Input A LPF:1~~\ 1k00Hz Q = 3.0 LPF VarQ Remember – to change filter types, press BYPASS to bypass the filter, and then use ENTER to select the filter type. The low and high pass variable 'Q' filters have adjustable frequency and 'Q' (or Bandwidth) controls. The 'Q' control adjust the damping of the filter, so that low 'Q' settings show less overshoot at the turnover frequency, but also slower roll-off.
DSP-2040 Specifications Inputs: 2 electronically balanced Impedance: > 10k ohms. CMRR : >65dB 50Hz - 10kHz. MUTE : ON/OFF Outputs: 4 electronically balanced Source Imp: < 60 ohms Min. Load: 600 ohms Max. Level: +20dBm into 600 ohms MUTE : ON/OFF Frequency Resp.: ±½dB 20Hz-20kHz -3dB @ 32kHz Dyn. Range: >116dB 20Hz-20kHz unweighted Distortion: < .02%@1kHz,+18dBm Maximum Delay: 650 mS Min Step Size: 0.3uS Input Gain: +6dB to -40dB in 0.1dB steps Output Gain: +15dB to -40dB in 0.
UM_DSP2040_01_EN www.dasaudio.com D.A.S. AUDIO, S.A. C/. Islas Baleares, 24 46988 Fuente del Jarro Valencia, SPAIN Tel. 96 134 0525 Tel. Intl. +34 96 134 0860 Fax 96 134 0607 Fax Intl. +34 96 134 0607 D.A.S. AUDIO OF AMERICA, INC. Sunset Palmetto Park 6816 NW 77th Court. Miami, FL. 33166 - U.S.A. TOLL FREE: 1-888DAS4USA Tel. +1 305 436 0521 Fax +1 305 436 0528 D.A.S. AUDIO ASIA PTE. LTD. 25 Kaki Bukit Crescent #01-00/02-00 Kaki Bukit Techpark 1 Singapore 416256 Tel.