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5200 D NEWS MIXER TECHNICAL MANUAL Wheatstone Corporation November 2005 5200D News Mixer Technical Manual - 1st Edition ©2005 Wheatstone Corporation 600 Industrial Drive New Bern, North Carolina 28562 tel 252-638-7000 / fax 252-637-1285 5200D / Nov 2005 CONTENTS 5200D Technical Manual Table of Contents Chapter 1 – General Information Introduction ................................................................................... 1-2 Energizing ................................................................................................................. 1-2 I/O Connections .............................................................................1-3 Inputs ........................................................................................................................ 1-3 Mic/Line In—XLR-F & RJ-45 ................................................................................. 1-4 Line In—RJ-45 ....................................................................................................... 1-4 AES 1 In—RJ-45 ................................................................................................... 1-4 AES 2 In—RJ-45 ................................................................................................... 1-5 AES 3 In—RJ-45 ................................................................................................... 1-5 Ext In—RJ-45 ........................................................................................................ 1-5 Cue In—RJ-45 ....................................................................................................... 1-5 Audio Inputs—DB-25 ............................................................................................. 1-5 Outputs ..................................................................................................................... 1-6 PGM Out—RJ-45 ................................................................................................... 1-6 MXM Out—RJ-45 .................................................................................................. 1-6 Monitor Out—RJ-45 ............................................................................................... 1-7 Mic Pre Out—RJ-45 ............................................................................................... 1-7 PGM AES Out—RJ-45 .......................................................................................... 1-7 MXM AES Out—RJ-45 .......................................................................................... 1-7 Audio Outputs—DB-25 .......................................................................................... 1-7 Logic Connections .................................................................................................... 1-8 Ethernet Interface ..................................................................................................... 1-9 Typical Ethernet Cable .......................................................................................... 1-9 Typical Crossover Cable ....................................................................................... 1-9 Digital Audio Connections ....................................................................................... 1-10 Unbalanced Analog Connections ............................................................................ 1-10 Unbalanced Digital Connections ............................................................................. 1-10 Audio Input RJ-45 Connections Pinout Drawing ..................................................... 1-12 Audio Output & Ethernet RJ-45 Connections Pinout Drawing ................................ 1-13 Audio Input/Output & Logic DB-25/DB-9 Connections Pinout Drawing .................. 1-14 5200D / Nov 2005 page Contents – 1 CONTENTS Chapter 2 – Controls and Functions Inputs .............................................................................................2-2 Dual X Controller...........................................................................2-3 Configuration .............................................................................................................2-3 Monitor Section .............................................................................2-3 Metering .........................................................................................2-3 Internal Programming Options ....................................................2-4 AES 3 Input Source .................................................................................................. 2-4 Sampling Frequency for Console Outputs ................................................................2-4 Phantom Power ........................................................................................................ 2-5 Gain Control.............................................................................................................. 2-5 Input Attenuation....................................................................................................... 2-5 Monitor Output .......................................................................................................... 2-6 Cue Dropout.............................................................................................................. 2-6 Cue to Monitor .......................................................................................................... 2-6 Meter......................................................................................................................... 2-6 X Controller Sources .................................................................................................2-6 Chapter 3 – Schematics and Load Sheets 5200D Controller (5200DC) Schematic ................................................................................................................. 3-2 Load Sheet .............................................................................................................. 3-10 5200D Switch Card (5200DSW) Schematic ................................................................................................................ 3-11 Load Sheet .............................................................................................................. 3-12 Appendix Replacement Parts List ............................................................... A-2 5200D / Apr Nov2007 2005 page Contents – 2 GENERAL I NFORMATION General Information Chapter Contents Introduction ................................................................................ 1-2 Energizing............................................................................................................... 1-2 I/O Connections.......................................................................... 1-3 Inputs ...................................................................................................................... 1-3 Mic/Line In—XLR-F & RJ-45 ............................................................................... 1-4 Line In—RJ-45..................................................................................................... 1-4 AES 1 In—RJ-45 ................................................................................................. 1-4 AES 2 In—RJ-45 ................................................................................................. 1-5 AES 3 In—RJ-45 ................................................................................................. 1-5 Ext In—RJ-45 ...................................................................................................... 1-5 Cue In—RJ-45 ..................................................................................................... 1-5 Audio Inputs—DB-25........................................................................................... 1-5 Outputs ................................................................................................................... 1-6 PGM Out—RJ-45................................................................................................. 1-6 MXM Out—RJ-45 ................................................................................................ 1-6 Monitor Out—RJ-45............................................................................................. 1-7 Mic Pre Out—RJ-45............................................................................................. 1-7 PGM AES Out—RJ-45 ........................................................................................ 1-7 MXM AES Out—RJ-45 ........................................................................................ 1-7 Audio Outputs—DB-25 ........................................................................................ 1-7 Logic Connections .................................................................................................. 1-8 Ethernet Interface ................................................................................................... 1-9 Typical Ethernet Cable ........................................................................................ 1-9 Typical Crossover Cable ..................................................................................... 1-9 Digital Audio Connections .................................................................................... 1-10 Unbalanced Analog Connections ......................................................................... 1-10 Unbalanced Digital Connections .......................................................................... 1-10 Audio Input RJ-45 Connections Pinout Drawing.................................................. 1-12 Audio Output & Ethernet RJ-45 Connections Pinout Drawing ............................. 1-13 Audio Input/Output & Logic DB-25/DB-9 Connections Pinout Drawing...............1-14 5200 / Nov 2005 page 1 – 1 GENERAL I NFORMATION General Information Introduction The networkable 5200D rackmounted news mixer is perfectly suited for news and small production projects. Its combination of mic, line and AES inputs is a perfect match for local and router accessed sources. The five total inputs consist of one mic, one analog input and three digital inputs (two with router selector). It has a monitor mix, an assignable mix-minus mix, and built-in headphone and cue amplifiers. The front panel single segment LED VU meters follow monitor source select. The operator-friendly unit provides front and rear panel mic input connectors along with a front panel headphone jack. This unit, occupying two 19” wide rack spaces (height 3-1/2”), is 12” deep, and has a built-in power supply. Energizing Assuming the 5200D news mixer is correctly rackmounted, you may now energize it by connecting the factory supplied power cord to the rackmount unit and then plugging it into the AC mains. Note: To de-energize the 5200D, unplug its AC cord from the AC mains. 5200 / Nov 2005 page 1 – 2 GENERAL INFORMATION I/O Connections An array of rear panel connectors are provided for audio input, audio output, logic control, and Ethernet connections. MIC IN connections can be made from an XLR connector, an RJ-45 connector, or a DB-25 connector. CUE input and MIC PRE output are available at RJ-45 connectors. The remaining digital and analog audio inputs and outputs are available at either RJ-45 or DB-25 connectors. Ethernet connection is made via an RJ-45 connector, and a DB-9 is provided for logic connections. Four additional connectors are provided on the front panel: an XLR for MIC IN; a standard 1/8” jack for analog line in; a standard 1/8” jack for AES in; and a standard 1/4” jack for headphone output. The pinout drawings on pages 1-12 through 1-14 summarize all wiring connections. Inputs The 5200D news mixer can be fed from five inputs: mono microphone, stereo analog line, and three AES digital signals. When processing mic level (nominal -50dBu balanced) inputs, the input is fed, either from one of the two female XLR connectors (one each for the two signal paths), the appropriate pins on the DB-25 “A” connector, or the “MIC/LINE IN” RJ-45 connector, to the internal microphone preamplifier. The mic preamp has dipswitch controlled gain, up to a maximum of 66 dB. Phantom power (+18VDC) is available. The stereo line level analog audio input (nominal +4dBu balanced) can use either the RJ-45 (“LINE 1 IN”) connector, or the appropriate pins on the DB-25 “A” connector. The righthand end of the front panel has an additional “LINE 1” stereo jack input for line level (nominal -10dBu unbalanced) inputs. The 5200D unit accepts three stereo digital (AES) sources. The balanced digital audio inputs are transformer coupled and exhibit a nominal input impedance of 110 Ohm. Unbalanced SPDIF formatted input signals may be connected to the HI and LO of an AES input channel (leave the shield floating). Three RJ-45 connectors (“AES 1”, “AES 2”, and “AES 3”), along with appropriate pins on the paralleled DB-25 ”B” connector are available to handle digital line level sources. There is also an additional “AES 3” stereo jack on the righthand end of the front panel to handle AES 3 digital line input. The 5200D will accommodate digital inputs having sample rates of 44.1kHz or 48kHz. 5200 / June 2006 Nov 2005 page 1 – 3 GENERAL INFORMATION The 5200D unit has an external monitor input provided on the “EXT IN” RJ-45 connector, and appropriate pins on the DB-25 “A” connector, to allow an external signal to feed the mixer’s monitor output. An external CUE input is provided on the RJ-45 “CUE IN” connector to allow an external signal to feed the mixer’s cue bus. MIC / Line In—XLR-F & RJ-45 XLR-F Pin 1 XLR1 SH – MIC / LINE IN SH Pin 2 XLR1 HI – MIC / LINE IN HI Pin 3 XLR1 LO – MIC / LINE IN LO RJ-45 Pin 1 – MIC1 / LINE IN HI Pin 2 – MIC1 / LINE IN LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C Line 1 In—RJ-45 Pin 1 – LINE 1 IN LT HI Pin 2 – LINE 1 IN LT LO Pin 3 – LINE 1 IN RT HI Pin 4 – N/C Pin 5 – N/C Pin 6 – LINE 1 IN RT LO Pin 7 – N/C Pin 8 – N/C AES 1 In—RJ-45 Pin 1 – AES 1 IN HI Pin 2 – AES 1 IN LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C 5200 / June 2006 Nov 2005 page 1 – 4 GENERAL INFORMATION AES 2 In—RJ-45 Pin 1 – AES 2 IN HI Pin 2 – AES 2 IN LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C AES 3 In—RJ-45 Pin 1 – AES 3 IN HI Pin 2 – AES 3 IN LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C EXT In—RJ-45 Pin 1 – EXT IN LT HI Pin 2 – EXT IN LT LO Pin 3 – EXT IN RT HI Pin 4 – N/C Pin 5 – N/C Pin 6 – EXT IN RT LO Pin 7 – N/C Pin 8 – N/C CUE In—RJ-45 Pin 1 – CUE IN LT HI Pin 2 – CUE IN LT LO Pin 3 – CUE IN RT HI Pin 4 – N/C Pin 5 – N/C Pin 6 – CUE IN RT LO Pin 7 – N/C Pin 8 – N/C Audio Inputs—DB-25 DB-25 “A” Pin 2 – MIC / LINE IN SH Pin 1 – MIC / LINE IN HI Pin 14 – MIC / LINE IN LO Pin 5 – LINE 1 RT IN SH Pin 4 – LINE 1 RT IN HI Pin 17 – LINE 1 RT IN LO 5200 / June 2006 Nov 2005 page 1 – 5 GENERAL I NFORMATION Pin 19 – LINE 1 LT IN SH Pin 18 – LINE 1 LT IN HI Pin 6 – LINE 1 LT IN LO Pin 8 – EXT RT IN SH Pin 7 – EXT RT IN HI Pin 20 – EXT RT IN LO Pin 22 – EXT LT IN SH Pin 21 – EXT LT IN HI Pin 9 – EXT LT IN LO DB-25 “B” Pin 22 – AES 1 IN SH Pin 21 – AES 1 IN HI Pin 9 – AES 1 IN LO Pin 11 – AES 2 IN SH Pin 10 – AES 2 IN HI Pin 23 – AES 2 IN LO Pin 25 – AES 3 IN SH Pin 24 – AES 3 IN HI Pin 12 – AES 3 IN LO Outputs The 5200D’s provides four line level analog outputs (MIC PRE OUT, PGM OUT, MXM OUT, and MON OUT), and two digital AES formatted outputs (PGM AES OUT and MXM AES OUT). All analog outputs are balanced (nominal +4dBu). There are two analog mono outputs (MIC PRE OUT and MXM OUT), and two analog stereo outputs (PGM OUT and MON OUT). Analog outputs are available at their respective RJ-45 (“PGM OUT”, “MXM OUT”, MIC PRE OUT” and “MON OUT”) connector, or at the appropriate pins on the DB-25 “A” and “B” connectors (except mic pre output, which is only available on its RJ-45 connector). The headphone jack is located at the right side of the 5200D front panel, and is powered by a built-in amplifier. Digital outputs are available at their respective RJ-45 (“PGM AES OUT” and “MXM AES OUT”) connector, or at the appropriate pins on the DB-25 “B” connector. The balanced digital audio outputs are transformer coupled and exhibit a nominal output impedance of 110Ω. PGM Out—RJ-45 Pin 1 – PGM LT OUT HI Pin 2 – PGM LT OUT LO Pin 3 – PGM RT OUT HI Pin 4 – N/C Pin 5 – N/C Pin 6 – PGM RT OUT LO Pin 7 – N/C Pin 8 – N/C 2007 5200 / June Nov 2005 2006 page 1 – 6 GENERAL INFORMATION MXM Out—RJ-45 Pin 1 – MXM OUT HI Pin 2 – MXM OUT LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C Monitor Out—RJ-45 Pin 1 – MON LT OUT HI Pin 2 – MON LT OUT LO Pin 3 – MON RT OUT HI Pin 4 – N/C Pin 5 – N/C Pin 6 – MON RT OUT LO Pin 7 – N/C Pin 8 – N/C MIC Pre Out—RJ-45 Pin 1 – MIC PRE OUT HI Pin 2 – MIC PRE OUT LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C PGM AES OUT—RJ-45 Pin 1 – PGM AES OUT HI Pin 2 – PGM AES OUT LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C MXM AES OUT—RJ-45 Pin 1 – MXM AES OUT HI Pin 2 – MXM AES OUT LO Pin 3 – N/C Pin 4 – N/C Pin 5 – N/C Pin 6 – N/C Pin 7 – N/C Pin 8 – N/C 5200 / June 2006 Nov 2005 page 1 – 7 GENERAL INFORMATION Audio Outputs—DB-25 DB-25 “A” Pin 11 – MON RT OUT SH Pin 10 – MON RT OUT HI Pin 23 – MON RT OUT LO Pin 25 – MON LT OUT SH Pin 24 – MON LT OUT HI Pin 12 – MON LT OUT LO DB-25 “B” Pin 2 – PGM RT OUT SH Pin 1 – PGM RT OUT HI Pin 14 – PGM RT OUT LO Pin 16 – PGM LT OUT SH Pin 15 – PGM LT OUT HI Pin 3 – PGM LT OUT LO Pin 5 – MXM OUT SH Pin 4 – MXM OUT HI Pin 17 – MXM OUT LO Pin 19 – PGM AES OUT SH Pin 18 – PGM AES OUT HI Pin 6 – PGM AES OUT LO Pin 8 – MXM AES OUT SH Pin 7 – MXM AES OUT HI Pin 20 – MXM AES OUT LO Logic Connections The DB-9 connector provides START and STOP logic signals for remote source machines that follow the ON switches. EXTERNAL START—Hookup the remote machine’s “start” control pins to the DB-9’s connector control pins: for START LINE 1 wire to pins 1 and 5; for START AES 1 wire to pins 2 and 5; for START AES 2 wire to pins 3 and 5; for START AES 3 wire to pins 4 and 5. EXTERNAL STOP—Hookup the remote machine’s “stop” control pins to the DB-9’s connector control pins: for STOP LINE 1 wire to pins 6 and 5; for STOP AES 1 wire to pins 7 and 5; for STOP AES 2 wire to pins 8 and 5; for STOP AES 3 wire to pins 9 and 5. Note that these are opto isolated outputs. 5200 / June 2006 Nov 2005 page 1 – 8 GENERAL I NFORMATION Ethernet Interface Networked systems are connected to the 5200D news mixer via straight (pin to pin) CAT5 cable. Typical CAT5 cable pinouts are shown below. These connections are for communicating with the configuration computer, via a network. If you are connecting directly between the computer and the 5200D with no network in between, use a crossover cable. Ethernet—RJ-45 Pin 1 – TXD + Pin 2 – TXD Pin 3 – RXD + Pin 4 – N/C Pin 5 – N/C Pin 6 – RXD Pin 7 – N/C Pin 8 – N/C T YPICAL ETHERNET CABLE PIN RJ-45 Plug PIN White/Orange 1 Orange 2 TXD + TXD - 1 White/Orange 2 Orange White/Green 3 RXD + 3 White/Green N/C 4 Blue 5 White/Blue Blue 4 White/Blue 5 N/C Green 6 White/Brown 7 Brown 8 RXD - 6 Green N/C 7 White/Brown 8 Brown N/C RJ-45 Plug T YPICAL CROSSOVER CABLE PIN RJ-45 Plug White/Orange 1 Orange 2 White/Green 3 Blue 4 White/Blue 5 Green 6 White/Brown 7 Brown 8 5200 / Nov 2005 PIN TXD + RXD + TXD - RXD - RXD + 1 White/Green 2 Green TXD + 3 White/Orange N/C N/C N/C N/C RXD - TXD - 6 Orange N/C N/C N/C N/C 7 White/Brown 8 Brown 4 Blue 5 White/Blue RJ-45 Plug page 1 – 9 GENERAL I NFORMATION Digital Audio Connections CABLE - All AES/EBU input and output digital audio connections are balanced and should be made using a high quality digital audio cable. Be sure to select a digital audio cable with an integral drain wire of the same wire gauge (AWG) as the twisted pair as this facilitates an easier consistent termination process. Typical AES/EBU digital audio cable has a very low characteristic capacitance per ft (pF/ft), and a nominal impedance of 110Ω. High quality digital audio cable offers better signal transmission performance versus typical analog audio cable, especially over long cable runs. Check the cable manufacturer’s data sheet to be sure the cable you plan to use will work in your application. CONNECTORS - The AES/EBU connections are made with the supplied DB-25 male mating connector, or with RJ-45 connectors. The DB-25 crimp style connector will accept wire gauge 22 - 28AWG. Please refer to the RJ-45 mating connector manufacturer's recommendations for termination instructions. Unbalanced Analog Connections ANALOG INPUTS — Wire to the mixer input end with typical shielded, two conductor cable (like Belden 9451), just as if you were connecting a balanced source. At the unbalanced source machine’s output, connect the + output to the HI input wire and connect the source machine GND wire to LO. Connect the shield at the 5200D end only. Note: Unbalanced analog sources typically have -10dBv (316mV RMS) signal levels and will not match the mixer nominal operating level of +4dBu (1.23V RMS). We highly recommended that you first externally balance any unbalanced sources you plan on connecting to the 5200D. Many third party “match boxes” are commercially available for this. This note does not apply to the front panel “LINE 1 IN” connector, which is set up to be -10dBu unbalanced. ANALOG OUTPUTS — The 5200D analog outputs use a balanced output circuit which behaves exactly like the secondary of a high-quality transformer, with no center tap—this output is both balanced and floating. For unbalanced operation, either the HI or LO side of the analog output must be strapped to ground of the unbalanced input, with the output taken from the other side. (Normally you would strap LO to ground, and use HI to feed your unbalanced equipment input.) Leave the SH floating at one end. Unbalanced Digital Connections (SPDIF) SPDIF INPUTS — The SPDIF (Sony/Phillips Digital Interface) or “consumer” digital audio interface is a two wire unbalanced signal typically on a single RCA style connector. Note that the SPDIF signal level of approximately 500mV and 75 ohm impedance does not correctly match the mixer AES inputs. We highly recommend using a “balun” or format converter when interfacing “consumer” grade source devices to the processor. 5200 / Nov 2005 page 1 – 10 GENERAL I NFORMATION In cases where a consumer grade device must be interfaced and the appropriate matching device is not available, try wiring the SPDIF center conductor (HOT) to the HI input pin and SPDIF shell (ground) to the LO input. Connect SH at the processor end only. SPDIF OUTPUTS — The 5200D digital outputs are fixed, professional, AES-3 formatted outputs. SPDIF consumer format is not supported. Use an external format converter to connect the digital outputs to consumer gear. 5200 / Nov 2005 page 1 – 11 GENERAL INFORMATION Audio Input RJ-45 Connections MIC/LINE IN 1 2 AES 1 IN 1 MIC / LINE IN HI MIC / LINE IN LO 2 3 4 3 4 5 6 5 6 7 7 8 8 AES 2 IN LINE 1 IN 1 2 3 4 5 6 1 LINE 1 LT IN HI LINE 1 LT IN LO LINE 1 RT IN HI 2 5 6 LINE 1 RT IN LO 7 8 8 EXT IN 2 3 4 AES 3 IN 1 EXT LT IN HI EXT LT IN LO EXT RT IN HI 2 AES 3 IN HI AES 3 IN LO 3 4 5 6 AES 2 IN HI AES 2 IN LO 3 4 7 1 AES 1 IN HI AES 1 IN LO 5 EXT RT IN LO 6 7 7 8 8 CUE IN 1 2 3 4 CUE LT IN HI CUE LT IN LO CUE RT IN HI 5 6 CUE RT IN LO 7 8 5200 / June 2006 Nov 2005 page 1 – 12 GENERAL INFORMATION Audio Output & Ethernet/XY RJ-45 Connections PGM OUT 1 2 3 PGM AES OUT 1 2 PGM LT OUT HI PGM LT OUT LO PGM RT OUT HI 3 4 5 6 4 5 6 PGM RT OUT LO 7 7 8 8 MXM OUT 1 2 MXM AES OUT 1 2 MXM OUT HI MXM OUT LO 3 3 4 4 5 6 5 6 7 7 8 8 MON OUT 1 2 3 MXM AES OUT HI MXM AES OUT LO MIC PRE OUT MON LT OUT HI MON LT OUT LO MON RT OUT HI 1 2 MIC PRE OUT HI MIC PRE OUT LO 3 4 4 5 6 PGM AES OUT HI PGM AES OUT LO 5 6 MON RT OUT LO 7 7 8 8 ETH / XY 1 2 3 4 TX + TX RX + 5 6 RX - 7 8 5200 / June 2006 Nov 2005 page 1 – 13 GENERAL INFORMATION Audio Input / Output & Logic DB-25 / D-9 Connections AUDIO I/O DB-25 "A" MONITOR LT OUT SH MONITOR LT OUT HI MONITOR RT OUT LO EXT LT IN SH EXT LT IN HI EXT RT IN LO LINE 1 LT IN SH LINE 1 LT IN HI LINE 1 RT IN LO N/C N/C MIC / LINE IN LO 25 13 12 24 11 23 10 22 9 21 8 20 7 19 6 18 5 17 4 16 3 15 2 14 1 AUDIO GROUND MONITOR LT OUT LO MONITOR RT OUT SH MONITOR RT OUT HI EXT LT IN LO EXT RT IN SH EXT RT IN HI LINE 1 LT IN LO LINE 1 RT IN SH LOGIC DB-9 LINE 1 RT IN HI N/C MIC / LINE IN SH MIC / LINE IN HI AES 3 STOP AES 2 STOP AES1 STOP LINE STOP AUDIO I/O DB-25 "B" AES 3 IN SH AES 3 IN HI AES 2 IN LO AES 1 IN SH AES 1 IN HI MXM AES OUT LO PGM AES OUT SH PGM AES OUT HI MXM OUT LO PGM LT OUT SH PGM LT OUT HI PGM RT OUT LO 5200 / June 2006 Nov 2005 13 25 12 24 11 23 10 22 9 21 8 20 7 19 6 18 5 17 4 16 3 15 2 14 1 LOGIC COM AES 3 START AES 2 START AES 1 START LINE START AGND AES 3 IN LO AES 2 IN SH AES 2 IN HI AES 1 IN LO MXM AES OUT SH MXM AES OUT HI PGM AES OUT LO MXM OUT SH MXM OUT HI PGM LT OUT LO PGM RT OUT SH PGM RT OUT HI page 1 – 14 CONTROLS A ND F UNCTIONS Controls and Functions Chapter Contents Inputs .............................................................................................2-2 Dual X Controller...........................................................................2-3 Configuration .............................................................................................................2-3 Monitor Section .............................................................................2-3 Metering .........................................................................................2-3 Internal Programming Options ....................................................2-4 AES 3 Input Source .................................................................................................. 2-4 Sampling Frequency for Console Outputs ................................................................2-4 Phantom Power ........................................................................................................ 2-5 Gain Control.............................................................................................................. 2-5 Input Attenuation....................................................................................................... 2-5 Monitor Output .......................................................................................................... 2-6 Cue Dropout.............................................................................................................. 2-6 Cue to Monitor .......................................................................................................... 2-6 Meter......................................................................................................................... 2-6 X Controller Sources .................................................................................................2-6 5200D / Nov Apr 2007 2005 page 2 – 1 CONTROLS AND FUNCTIONS Controls and Functions Inputs The 5200D news mixer accepts five sources: microphone, analog stereo line, and three digital stereo lines. Five front panel knobs set the levels of the input signals. The channel ON switch turns the channel signal on/off, assigns the channel signal to PGM output, and fires the channel START/STOP logic; the switch LED lights to indicate the channel is on. The cue switch places the input signal on the mono cue bus, where it may be heard on the built-in cue speaker and as an interrupt to the operator’s headphones. The CUE master level control, located next to the speaker, sets the level of the CUE output and the volume of the CUE speaker. Whenever CUE is activated on the news mixer its signal will appears at the built-in speaker and the operator’s headphones. Depending on how the 5200D has been programmed, cue can also interrupt the monitor speakers. The way CUE interrupts the monitor outputs is determined by an internal PCB-mounted dipswitch. See “Cue to Monitor” below. The 5200D news mixer has one mono mix-minus bus. Whenever the input’s channel MXM switch is pushed, its signal will be sent to the mix-minus bus. The MXM signal is programmed as pre-on and post-level for each input channel. 5200D / Nov 2005 page 2 – 2 CONTROLS AND FUNCTIONS Dual X Controller This section provides a means of routing two input sources to AES 1 and AES 2 inputs. Sources may be any physical audio input wired to a Bridge rack or any control surface mix (PGM bus, Mix-Minus, etc.). Scroll the left knob until the desired source is shown in the left display. Pressing the TAKE button will cause that source to be switched to the AES 1 input. Once loaded this source can be connected at any time by pressing the AES 1 ON button. Scroll the right knob until the desired source is shown in the right display. Pressing the TAKE button will cause that source to be switched to the AES 2 input. Once loaded this source can be connected at any time by pressing the AES 2 ON button. Configuration The actual router destinations for the two sections of the Dual X Controller, as well as source visibility, are set up with the utility program WSNetServer.exe, which is available on your install CD. Although the description above assumes that you have set the section 1 destination to the Bridge output that is wired to the 5200D AES 1 input and the section 2 destination to the Bridge output that is wired to the 5200D AES 2 input, you are free to choose any two destinations in the system. But unless you have a compelling reason to do otherwise, configure the destinations as described. Along with the WSNetServer.exe program on the install CD is a PDF file describing the program’s use. In addition to setting destination and visibility, WSNetServer.exe can be used to change the IP address of the Dual X Controller if that ever becomes necessary. Monitor Section This section allows the operator to listen to the mixer’s stereo program output, the mono mix-minus output, or the external stereo line input. Pressing the PGM, MXM, or EXT button will send the appropriate signal to the MON output. The MONITOR level control determines the overall loudness of the signal being monitored as it appears in the control room speakers. The HDPN (headphone) level control determines the overall loudness of the headphone output signal. Metering The front panel 10-segment LED ladder display pair allows you to monitor the news mixer’s program output bus (default setting). It can also be programmed (see next section) to switched mode. In this mode it will meter program, mix-minus, or the external input, according to how the Monitor Section select switches are set. 5200D / Nov 2005 page 2 – 3 CONTROLS A ND F UNCTIONS Internal Programming Options All internal programming options are made via PCB mounted switches. For programming purposes switches are described as viewed from the front panel of the 5200D unit, with UP being towards the rear connectors and RT pointing to the speaker. AES 3 Input Source With the slide switch SW1 the AES 3 digital stereo input can be programmed as balanced input source (RJ-45 “AES 3 IN” or appropriate pins on the DB-25 “B”) or unbalanced input source (front panel stereo jack “AES 3”). SW1 slide UP - AES 3 programmed as balanced digital input source using rear panel connectors SW1 slide DOWN - AES 3 programmed as unbalanced digital input source using front panel connector Sampling Frequency for Console Outputs The 5200D output sample rate is determined by crystal Y2, which installed at the factory for 44.1 kHz sample rate. To switch to a different output sample rate, replace crystal Y2 with the appropriate frequency as shown in Figure 1 and Table 1. Figure 1. Section of the 5200DC PCB TABLE 1 SAMPLE RATE CRYSTAL OSCILLATOR WS PART# FREQUENCY 48 kHz 24.576 MHz 370012 44.1 kHz 22.579 MHz 370011 Note that to replace the crystal Y2 you need to open the 5200D to access the 5200DC main circuit board. The 5200D must be powered down before changing the sample rate crystal Y2 or damage not covered by warranty may result. Changing the crystal Y2 will change the 5200D output sample rate; however some external digital devices also need the correct sample rate information to be embedded in the 5200D / Nov Apr 2007 2005 page 2 – 4 CONTROLS A ND F UNCTIONS AES output data or they will not operate correctly. Therefore, after changing the sample rate crystal Y2, be sure to reset dipswitch SW2, positions 3 and 4 on the 5200DC main circuit board to correctly embed the sample rate information in the output AES data stream. Table 2 shows the dipswitch settings. TABLE 2 SW2 pos.3 SW2 pos.4 FREQUENCY OFF ON 48 kHz ON OFF *44.1 kHz Note: On the 5200DC PCB SW2 pos.3 labeled as AES-C6/C2, and SW2 pos.4 - as AES-C7/C3. *default setting Phantom Power Phantom power (+18VDC) is available and may be activated by internal dipswitch SW3. Note the factory default setting for phantom power is OFF. SW3 position 1 UP activates phantom power Gain Control The mic preamp has dipswitch settings to program the gain for the input. Switch gain settings of 20dB, 40dB, and 60dB are clearly marked on the 5200DC board. SW3 position 2 UP sets 60dB gain SW3 position 3 UP sets 40dB gain SW3 position 4 UP sets 20dB gain When all positions are off the gain is 0dB. Please note, these settings are not “additive”. That is, activating both the 20dB and 60dB settings does NOT result in 80dB of gain. Input Attenuation This exclusive Wheatstone feature allows the user to trim the gain back (-12dB) on digital input post-level signals using the PCB-mounted slide switches. Why use digital attenuation? Many of today's digital audio sources (especially modern rock, rap, etc.) are produced to take full advantage of the available maximum digital output level (0dBFS). Playback of these tracks from a CD player's digital output result in average digital domain levels -6 to 3dBFS or higher! That translates to average analog levels of +18 to +21 dBu - very close to the news mixer clipping point of +24dBu. Connecting the digital output from a CD player to a 5200D input with utility gain can put the operator in a position of potentially clipping the CD playback. In this case, adding -12dB of attenuation will re-calibrate the input so that digital clipping of CD source material will be impossible even if the operator rotates the level all the way to the end. 5200D / Nov Apr 2007 2005 page 2 – 5 CONTROLS A ND F UNCTIONS SW4 when ON (to the left) sets attenuation for the AES 1 LT SW8 when ON (to the left) sets attenuation for the AES 1 RT SW5 when ON (to the left) sets attenuation for the AES 2 LT SW9 when ON (to the left) sets attenuation for the AES 2 RT SW6 when ON (to the left) sets attenuation for the AES 3 LT SW10 when ON (to the left) sets attenuation for the AES 3 RT Monitor Output The balanced monitor output level can be changed from +4dBu to -16dBu using slide switches SW7 and SW11. This is helpful when using monitor speaker amplifiers that don’t have enough attenuation. SW7 when OFF (to the right) sets +4dBu level for MON OUT LT SW11 when OFF (to the right) sets +4dBu level for MON OUT RT SW7 when ON (to the left) sets -16dBu level for MON OUT LT SW11 when ON (to the left) sets -16dBu level for MON OUT RT Cue Dropout The dipswitch SW12 position 1, when activated (UP), will cause the input cue function to be de-activated whenever the channel ON switch is pressed. This is the factory default setting. Cue to Monitor The dipswitch SW12 position 4, when activated (UP), will send cue to the monitor output whenever a channel’s CUE switch is pressed. Meter By factory default, the front panel meters monitor the program output. The slide switch SW13 allows the operator to selectively meter program, output, mix-minus output, or external input. SW13 slide LT (marked on the PCB as “PGM”) - enable program metering SW13 slide RT (marked on the PCB as “MON”) - enable switched metering X Controller Sources The dipswitch SW14 position 1, when activated (UP), will put all stored X Controller sources in alphabetical order. This is the factory default setting. The dipswitch SW14 positions 2-4 are not used. 5200D / Nov Apr 2007 2005 page 2 – 6 SCHEMATIC D RAWINGS Schematics and Load Sheets Chapter Contents 5200D Controller (5200DC) Schematic ................................................................................................................. 3-2 Load Sheet .............................................................................................................. 3-10 5200D Switch Card (5200DSW) Schematic ................................................................................................................ 3-11 Load Sheet .............................................................................................................. 3-12 5200D / June 2006 page 3 – 1 5200D/Jun 2006 8 7 6 5 4 10 12 CT5 A 3 9 NOT INSTALLED 332 R7 DRAWN APPROVALS SA CHECKED SA ISSUED SA W# 700830 2 SCALE VIEWED FROM ABOVE (COMPONENT SIDE) 1 2 CONTRACT NO. - SA UR US - Sergey Averin - 6-16-06 SIZE FSCM NO. D DWG. NO. 5200DCA PCB LINE1_LT SPDIF_HI SHEET LINE1_RT 3 2 1 CT17 3 RT LT HI LO LINE1 IN SPDIF IN B 2 MIC_LO MIC_HI H8 H7 H6 H5 H4 H3 H2 H1 CT11 PGM_RT_LO PGM_RT_HI PGM_LT_LO PGM_LT_HI MXM_LO MXM_HI MON_RT_LO MON_RT_HI 8 7 6 5 4 3 2 1 CT10 8 7 6 5 4 3 2 1 CT9 8 7 6 5 4 3 2 1 CT8 MXM OUT RJ-45 CONNECTOR 1 CT19 G8 G7 G6 G5 G4 G3 G2 LINE1 RJ-45 CONNECTOR G1 CT11 F8 F7 F6 F5 F4 F3 MON_LT_LO MON_LT_HI 8 7 MON OUT RJ-45 CONNECTOR MPRE_LO MPRE_HI LINE1_RT_LO LINE1_RT_HI F2 F1 AES 1 RJ-45 CONNECTOR CT11 E8 6 5 4 3 2 1 PGM AES RJ-45 CONNECTOR 2 AGND CT5 E7 E6 PGM_AES_LO CT7 3 SPDIF_LO +3.3V E5 E4 E3 E2 PGM_AES_HI 8 7 6 5 4 3 2 1 4 LINE1_LT_LO LINE1_LT_HI AES1_LO AES 2 RJ-45 CONNECTOR E1 MXM_AES_LO CT6 8 7 6 5 4 3 2 1 MXM AES RJ-45 CONNECTOR CT11 D8 D7 D6 D5 D4 D3 D2 MXM_AES_HI ETH_P8 ETH_P7 ETH_P6 ETH_P5 ETH_P4 ETH_P3 ETH_P2 CT5 9 8 7 6 AGND MON_LT_HI MON_RT_LO AGND EXT_LT_HI EXT_RT_LO AGND LINE1_LT_HI LINE1_RT_LO AGND MIC_LO AGND AES3_HI AES2_LO AGND AES1_HI MXM_AES_LO AGND PGM_AES_HI MXM_LO AGND PGM_LT_HI PGM_RT_LO 5 AES1_HI AES2_LO AES 3 RJ-45 CONNECTOR D1 RX- RX+ TX- ETH_P1 5 4 3 2 1 CT4 25 24 23 22 21 20 19 18 17 16 15 14 LOGIC DB-9 CONNECTOR 13 12 11 10 9 8 7 6 5 4 3 2 1 CT2 25 24 23 22 21 20 19 18 I/O "A" DB-25 CONNECTOR 13 12 11 10 9 8 7 6 5 17 16 ETH X/Y RJ-45 CONNECTOR CT11 C8 C7 C6 C5 C4 C3 C2 TX+ LOGIC_COM AGND MON_LT_LO AGND MON_RT_HI EXT_LT_LO AGND EXT_RT_HI LINE1_LT_LO AGND LINE1_RT_HI AGND MIC_HI AGND AES3_LO AGND AES2_HI AES1_LO AGND MXM_AES_HI PGM_AES_LO AGND 4 15 14 6 AES2_HI AES3_LO C1 CT11 B8 B7 B6 B5 B4 B3 B2 MIC IN MIC IN EXT IN RJ-45 CONNECTOR AES3_HI EXT_RT_LO EXT_RT_HI B1 HI LO SH HI LO SH MXM_HI 3 2 7 EXT_LT_LO CT11 A8 A7 A6 A5 A4 A3 A2 A1 CT11 3 2 1 CT15 3 2 1 CUE IN RJ-45 CONNECTOR EXT_LT_HI CUE_RT_LO CUE_RT_HI CUE_LT_LO CUE_LT_HI MIC_HI MIC_LO AGND MIC_HI MIC_LO AGND CT14 PGM_LT_LO CT1 1 I/O "B" DB-25 CONNECTOR D AGND PGM_RT_HI 8 1 PGM OUT RJ-45 CONNECTOR 80S0046-1 D C MIC PRE OUT RJ-45 CONNECTOR MIC/LINE RJ-45 CONNECTOR C B 3 PIN JST CONNECTOR PINOUT 11 332 R8 3 5200DC A DATE 600 Industrial Drive New Bern, NC 28562 REV 1 OF 10 A 1 page 3 - 2 8 7 6 VCC 5 4 3 2 1 VCC VCC R405 4.99K R404 220 1 C366 U81 R325 4.99K 1.00K U63 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 4 2 74AC14 1uF R378 R486 1.00K 3 U96 4 C424 0.001uF 74AC14 D R452 220 GND MIC_ON MIC_OFF 74ACT32 4.99K 3 C367 U81 1 2 3 U82 U63 ____ SET 9 Q CLK 12 __ D ____ Q 8 13 CLR 11 GND 4 LINE1_OFF MIC_CUE U79 5 R409 220 5 C368 U64 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 4 6 74AC14 1uF R485 1.00K 5 U100 6 C423 0.001uF 74AC14 GND 5 4.99K 9 C331 C U80 4 U81 5 6 U82 74ACT08 8 U64 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR U65 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 11 C330 U81 4 10 74AC14 1uF R433 1.00K 1 U100 2 C392 0.001uF 74AC14 R458 220 GND R360 220 13 C329 U81 8 10 U82 74AC14 1uF VCC LOGIC_COM C362 4.99K 0.1uF U6 C373 B 4.99K 1 C369 U83 U66 ____ SET 5 Q CLK 2 __ D ____ Q 6 1 CLR 4 2 74AC14 1uF 3 R435 1.00K 11 U100 10 C394 0.001uF 74AC14 R461 220 GND 2 AQW210S 7 R397 1.00K LOGIC_COM R462 220 VCC 13 U80 AES1_ON 3 R352 C325 4.99K 0.1uF 3 C370 R463 220 4 AQW210S 5 LOGIC_COM R465 220 AES1_CUE 9 R355 C326 4.99K 0.1uF U7 8 R377 220 10 U85 9 8 74AC14 1uF 11 4 5 C337 LOGIC_COM 74ACT74 VCC VCC 3 AES2_OFF AES2_ON 12 C327 4.99K 0.1uF 13 U82 11 4.99K R375 220 4 AQW210S 5 11 LOGIC_COM 74ACT08 4 U66 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR U85 10 9 8 10 U84 C336 74AC14 74ACT08 74ACT74 R468 220 GND 9 AES2_CUE U67 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 5 U83 4 6 74AC14 1uF R434 1.00K 9 U100 8 C393 0.001uF 74AC14 GND R359 C328 4.99K 0.1uF U8 8 VCC U71 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR R373 2 AQW210S 7 R358 1.00K 8 10 U79 AES3_ON LOGIC_COM 10 4.99K R372 220 13 74ACT32 C335 1uF U85 12 12 13 U84 74AC14 11 74ACT08 74ACT74 4.99K 9 C334 1uF U86 74ACT32 R370 U83 74AC14 D29 4148 6 8 10.0K AES3_OFF U96 1 AES3_ON C425 2 3 9 10 U96 11 74AC14 9 12 4 13 U86 8 10 U86 11 74ACT32 74ACT32 R470 1.00K C412 0.001uF GND 2 5200DC CONTRACT NO. 1 U84 3 U67 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR - SA UR US - Sergey Averin - 10 APPROVALS AES3_CUE VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC C352 C307 C351 C17 C304 C395 C421 C305 C306 C422 C420 C396 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF GND GND GND GND GND GND GND GND GND GND GND DRAWN SA 6 5 4 3 A DATE 6-16-06 CHECKED SA ISSUED SA GND W# 700830 7 U96 74AC14 74AC14 74AC14 100uF 74AC14 U100 3 74ACT74 GND U96 5 74ACT74 74ACT08 8 VCC GND 1 2 R469 220 GND R471 GND VCC B 4 1uF 10 VCC C371 5200D/Jun 2006 U71 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 6 R374 R357 1.00K 11 13 U79 AES3_OFF R356 U8 5200_RST R415 220 8 6 U84 74ACT08 R467 220 GND 74ACT74 4.99K R466 220 U70 ____ SET 9 Q CLK 12 __ 8 D ____ Q 13 CLR R376 2 AQW210S 7 1 12 GND R371 220 74ACT74 GND 4.99K R354 1.00K 8 10 U78 AES2_ON MXM_AES3 VCC 1 11 R414 A 3 74AC14 1uF 74ACT32 VCC R464 220 4 6 6 VCC 74AC14 1uF 5 C374 R353 1.00K 11 U7 U85 4.99K VCC 74ACT74 74ACT32 R412 R413 220 U70 ____ SET 5 Q CLK 2 __ D ____ Q 6 1 CLR R420 74ACT32 12 U83 74ACT74 GND R421 220 13 U78 C MXM_AES2 VCC VCC GND 4.99K U69 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR 10 4 74AC14 1uF 74ACT32 R411 3 8 VCC R410 220 U85 4.99K AES1_OFF 74ACT74 GND 4 AQW210S 5 R396 MXM_AES1 74ACT74 GND 74ACT32 10 74ACT08 12 U65 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR 2 74AC14 R418 3 U78 2 U69 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR 4 6 R459 220 1 AES2_OFF 9 C363 0.1uF U6 R419 220 12 74ACT32 4.99K U85 1 74ACT32 8 10 U80 R399 R398 1.00K 6 U78 74ACT74 9 R361 R460 220 R416 220 VCC GND VCC LOGIC_COM 1uF 4 LINE1_CUE 74ACT74 GND 4.99K 4.99K MXM_LINE1 VCC 2 AQW210S 7 3 5 12 74AC14 C372 AES1_OFF 10 R417 1 4.99K R456 220 VCC AES1_ON R362 13 U83 8 LINE1_ON VCC R363 220 0.1uF R401 1.00K 3 U79 2 74ACT74 GND 4.99K R366 220 74ACT32 10 74AC14 1uF R457 220 1 LINE1_ON LINE1_OFF 6 74ACT32 R364 LOGIC_COM 1uF 4.99K D U68 ____ SET 9 Q 11 CLK 12 __ 8 D ____ Q 13 CLR R367 U5 MXM_MIC VCC VCC C364 3 74ACT74 C332 R400 4 10 GND 6 4 AQW210S 5 74ACT74 4 U5 U83 74AC14 1uF 74ACT32 GND VCC R365 220 C365 0.1uF 1 R408 R455 220 R403 4.99K R402 1.00K 6 VCC U81 C333 R453 220 10 74ACT08 4 74ACT74 4.99K 11 74AC14 GND 3 74AC14 1uF 4.99K R369 220 12 VCC 74ACT32 R406 U86 5 U96 13 6 3 U80 U68 ____ SET 5 Q CLK 2 __ D ____ Q 6 1 CLR R368 4 74ACT74 1 2 R454 220 MIC_OFF GND VCC R407 220 VCC 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-2 SHEET REV A 2 OF 10 1 page 3 - 3 8 7 6 5 4 V- V+ MPRE_O MIC_LO -50dBu BAL MIC_HI LO MIC HI C62 10uF L18 C61 10uF L17 C46 D 0.001uF 330pF 5 3 0.001uF R55 R56 4.99K 4.99K C177 10uF +ph AGND Z4 C5V1 5.1V Z5 C5V1 5.1V R66 R67 10.0K 10.0K AGND 5.1V C5V1 Z2 AGND 5.1V C5V1 Z3 AGND AGND R153 1.00K 4 R152 100 3 R151 10 2 R150 1.00K 1 SW3 36R C432 22uF R253 4.99K R219 10.0K MIC_OFF 6 5 DIP SW: ALL OFF-0dB GAIN 4-20dB GAIN 3-40dB GAIN 2-60dB GAIN 1-PHANTOM ON AGND 7 OP275 U39 100uF C271 LINE1POST_LT R45 4.99K LINE1POST_RT 8 L15 R40 10.0K L16 C44 0.001uF C60 0.001uF 33pF AGND AES1POST_RT -2dBu 3 AGND 6 8 CR5 1 2 10K 3 C446 22uF R198 10.0K AES2POST_LT 3 100uF C212 LINE1POST_LT 10 R272 AES2POST_RT 40.2K 4 L23 5 C118 C110 C92 R77 0.001uF 0.001uF 33pF 2.43K AES3POST_LT AGND AGND 14 -14dBu CR5 4 5 10K 6 R221 10.0K AES3POST_RT -2dBu R267 4.99K 15 6 10 6 L1PRT 5 7 OP275 U40 100uF C272 MPOST_O LINE1POST_RT R265 10.0K 4 R268 9 AGND R266 10.0K LINE1_LT R108 11.0K LINE 1 (-10dBu) MIC 4 V- LINE1_RT C198 22uF R172 11.0K MICPRE 2 MPST LINE1POST_RT 9 AES1POST_LT 10K 10K 8 HI L10 3 C12 C2 C23 R18 0.001uF 0.001uF 33pF 4.99K AGND AGND AGND AES1POST_RT 6 LINE1PRE_LT 5 L1PLT AES2POST_LT 3 AGND 1 AGND 4 LINE1PRE_RT 2 L1PRT LINE1 -2dBu R275 10.0K 3 V- 1 C216 22uF L5 X_Y X INH Y S U53 74VHC4053 AES2POST_RT R274 10.0K 14 AGND R279 10.0K 15 10 CUE_IN_LT AES3POST_RT IN PHASE V- R277 10.0K 4 V- C10 C11 68pF 68pF AGND 9 AGND AGND PGM C PGM_RT_O R239 4.99K 1 C282 100uF 2 -2dBu 6 R238 5 40.2K AGND 3 AGND L14 7 4 3 5 V+ 6 7 OP275 U37 8 U17 SSM2142 gnd L13 C268 22uF HI L20 R39 10.0K 5 C58 C59 C43 R31 0.001uF 0.001uF 33pF 4.99K C65 22uF V- C40 C41 68pF 68pF AGND PGM_RT_2MON AGND 3 5 X_Y X INH Y U54 S 74VHC4053 14 B MXM_O C228 33pF 8 C207 100uF 3 5 R184 3 40.2K AGND -2dBu V+ 2 AGND 4 V+ 6 1 OP275 U39 3 V- L4 7 4 8 U2 SSM2142 gnd L3 C290 C289 47uF 47uF Z12 C5V1 5.1V 5 V- 1 C291 C292 47uF 47uF Z13 C5V1 5.1V 8 AGND C217 22uF C8 C9 68pF 68pF 40.2K 5 AGND 13 X_Y X 12 INH Y S U54 74VHC4053 AGND 5200DC CONTRACT NO. V+ C231 C229 C227 C225 C26 C142 C150 C73 C56 C57 C111 C36 C28 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF C255 C253 C251 C249 C141 C25 C175 C91 C48 C49 C93 C29 C37 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF R306 1.30K 5 4 AGND MXM_2MON APPROVALS SA 3 A DATE 6-16-06 CHECKED SA ISSUED SA W# 700830 6 MXM LO R196 3 AGND 7 HI 1 AGND 2 DRAWN AGND MXM_HI +4dBu BAL MXM_LO 2 AGND VAGND AGND 40.2K 1 CUE_IN_RT VEE AGND RT LO 2 R305 1.30K VDD 7 HI 2 5 AGND GND -2dBu 6 OP275 U9 PGM_RT_HI +4dBu BAL PGM_RT_LO 1 - SA UR US - Sergey Averin R38 10.0K AGND 40.2K 13 X_Y X INH Y S U54 74VHC4053 6 OUT OF PHASE R30 4.99K L19 LT LO AGND X_Y X 6 12 INH Y 11 S U53 74VHC4053 11 CUE_RT_LO +4dBu BAL CUE_RT_HI HI R193 2 6 LO PGM_LT_HI +4dBu BAL PGM_LT_LO 1 PGM_LT_2MON 5 1 4 EXT CUE 5200D/Jun 2006 5 AGND 3 6 9 NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY C42 33pF 8 U3 SSM2142 gnd 2 2 15 6 OP275 U9 L6 7 4 13 X_Y X INH Y 10 U53 S 74VHC4053 R273 10.0K AES3POST_LT C1 22uF V+ 6 1 OP275 U37 X_Y X 12 INH Y 11 S U52 74VHC4053 6 3 V+ 4 A R181 40.2K -2dBu V+ 6 2 R15 10.0K X_Y X INH Y S U52 74VHC4053 14 1 R17 4.99K C22 33pF AGND 2 R183 4.99K RT R14 10.0K R270 10.0K AGND 4 L7 8 C205 100uF 13 X_Y X INH Y U52 S 74VHC4053 6 CT27 LINE1F_RT 7 OP275 U33 AGND CUE_LT_LO +4dBu BAL CUE_LT_HI 4 -2dBu LT LO R269 10.0K 1 6 5 3 MIC R164 26.7K L32 10 CT26 LINE1F_LT 1 C176 10pF B 15 6 10K AGND R271 10.0K V+ OP275 U33 D R216 2 3 5 -2dBu LINE1POST_LT 8 C134 22uF 68pF C224 33pF X_Y X 6 12 INH Y 11 U51 S 74VHC4053 R113 26.7K L26 X_Y X INH Y S U51 74VHC4053 14 AGND C149 10pF C14 68pF 13 X_Y X INH Y S U51 74VHC4053 6 40.2K AGND C13 PGM_LT_O R180 4.99K X_Y X 12 INH Y 11 U50 S 74VHC4053 AES3_OFF C433 22uF V- C250 33pF C256 10pF 100uF C434 7 MIC PRE LO 3 R220 40.2K AGND AGND R262 4.99K HI 2 6 LINE1PRE_RT 6 R83 10.0K 9 MPRE_HI +4dBu BAL MPRE_LO 1 AGND X_Y X 12 INH Y S U49 74VHC4053 X_Y X INH Y S U50 74VHC4053 L8 2 13 X_Y X INH Y S U50 74VHC4053 6 -2dBu -2dBu OP275 U18 4 AES2_OFF LINE 1 IN C95 33pF R94 10.0K R261 4.99K VAGND L24 15 6 1 OP275 U40 AGND R82 4.99K R263 4.99K 2 L1PLT V- V+ 8 U4 SSM2142 gnd 5 AGND 100uF C447 1 OP275 U18 AGND C 11 -14dBu 4 R107 4.99K 14 AES1_OFF -2dBu C230 10pF R46 2.43K R258 4.99K R197 40.2K LINE1PRE_LT -2dBu V+ -2dBu LINE1F_RT HI X_Y X INH Y S U49 74VHC4053 L9 7 4 3 1 4 V+ 6 MPRE_O 5 15 9 AGND AGND LINE1_RT_LO +4dBu BAL LINE1_RT_HI R257 4.99K -2dBu 3 13 X_Y X 6 INH Y 10 S U49 74VHC4053 LINE1_OFF AES1POST_LT 2 R41 10.0K C45 LO R259 4.99K 1 1 X_Y X 12 INH Y S U48 74VHC4053 AGND 2 2 11 6 R54 4.99K C72 33pF LINE 1 (+4dBu) 14 6 LINE1F_LT HI R254 4.99K 40.2K +36V R69 100 LO 9 MPOST_O R252 X_Y X INH Y U48 S 74VHC4053 X_Y X INH Y S U48 74VHC4053 6 -2dBu LINE1_LT_LO +4dBu BAL LINE1_LT_HI 4 -2dBu MIC IN AGND 10 C254 10pF MPST 10K 3 -10dBu 1 15 6 100uF C445 CR4 1 2 R255 4.99K R218 40.2K -14dBu 6 SSM2017 U22 8 C47 AGND 4 2 C108 MPOST_O MICPRE -2dBu 7 3 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-3 SHEET REV A 3 OF 10 1 page 3 - 4 8 7 PGM_LT_2MON PGM_RT_2MON R283 4.99K 15 1 6 2 X_Y X INH Y 10 U55 S 74VHC4053 R281 4.99K 4 6 9 D MXM_2MON 6 R282 4.99K 14 6 11 X_Y X INH Y S U55 74VHC4053 5 4 VU_LT R199 4.99K R182 2.21K 3 5 C213 100uF 13 X_Y X 12 INH Y S U55 74VHC4053 EXT_IN_LT 1 2 X_Y X INH Y 10 U56 S 74VHC4053 R284 4.99K 4 6 9 EXT_IN_RT R285 4.99K X_Y X INH Y S U56 74VHC4053 14 C226 33pF 3 AGND 100uF C455 VLT 8 CR9 1 2 R298 4.99K 15 MNPL 10K 3 4 C454 22uF 6 V- 10 CT31 LT VU_RT R223 4.99K RT 5 C258 33pF 10K -2dBu C273 100uF 13 X_Y X 12 INH Y 11 S U56 74VHC4053 -2dBu 5 40.2K -14dBu 7 OP275 U41 100uF C431 MNPL R296 20.0K 4 6 9 3 VRT 2 MNPR LINE1PRE_LT 15 1 6 2 X_Y X INH Y 10 S U57 74VHC4053 R287 10.0K 4 C 6 9 LINE1PRE_RT R288 10.0K 14 6 11 X_Y X INH Y U57 S 74VHC4053 CR9 4 5 C441 22uF R297 4.99K 14 15 4 3 6 C236 33pF 9 X_Y X 12 INH Y S U57 74VHC4053 AGND AGND 5 AGND 4 L1 MON_LT_HI +4/-16dBu BAL MON_LT_LO HI V- LT LO 1 2 5 AGND SW11 V- C6 C7 68pF 68pF AGND AGND MONITOR 1 C283 100uF 13 -2dBu X_Y X INH Y S U61 74VHC4053 X_Y X INH Y U61 S 74VHC4053 -2/-22dBu R241 5 40.2K 6 6 AGND 2 L12 7 8 U16 SSM2142 gnd 3 1 V+ 4 7 OP275 U38 L11 MON_RT_HI +4/-16dBu BAL MON_RT_LO HI RT LO 1 2 AGND 5 AGND V- 3 C38 C39 68pF 68pF AGND AGND 5 C 2 R204 40.2K 3 6 R203 4.99K V+ 8 U1 SSM2142 gnd 3 X_Y X 12 INH Y 11 S U60 74VHC4053 MNPR 10 8 7 4 1 OP275 U38 C252 33pF 6 C208 100uF 3 L2 AGND R300 20.0K 13 R195 40.2K V+ R217 20.0K AGND 5 6 R240 2.21K AGND R289 4.99K X_Y X INH Y U60 S 74VHC4053 2 -2/-22dBu V+ 2 MONITOR VRT 10K 6 AGND VLT 5 X_Y X INH Y S U60 74VHC4053 C206 100uF 1 1 6 R222 6 4 MONITOR 3 D -14dBu 1 OP275 U41 10K 6 MICPRE SW7 -2dBu 2 R200 40.2K -2dBu V+ AGND 6 1 R194 20.0K 8 15 1 2 C232 33pF AGND R286 4.99K 3 3 AGND 1 OP275 U43 100uF C458 CUE_O R226 40.2K 4 CT25 V- -14dBu -2dBu C262 10pF 3 R290 10.0K 4 6 9 AES2PRE_LT R291 10.0K X_Y X INH Y U58 S 74VHC4053 14 10K 2 C444 22uF 2 R227 10.0K 1 "CUE" 3 6 OP275 U43 5 AGND 7 100uF C275 R201 4.99K AGND CUE LEVEL 5 8 R299 4.99K 14 X_Y X 6 12 INH Y 11 S U58 74VHC4053 R304 4.99K R295 10.0K 15 6 10 B AES3PRE_LT R293 10.0K 4 6 9 AES3PRE_RT R294 10.0K 14 X_Y X INH Y S U59 74VHC4053 X_Y X INH Y S U59 74VHC4053 1 10K 2 6 HLT 5 HPL 15 1 6 2 X_Y X INH Y 10 U62 S 74VHC4053 CT32 AES2PRE_RT C214 100uF 13 X_Y X 12 INH Y 11 S U61 74VHC4053 6 13 LT 3 40.2K AGND -2dBu -14dBu AGND 1 OP275 U42 100uF C457 HLT 5 CR10 1 2 4 10K 3 C456 22uF 3 RT 5 10K R489 10.0K VR488 1.00K 3 AGND C416 HRT 2 HPR HDPN R473 R474 3.3 3.3 POLYSW 0.16A HDPN OUT C417 AGND 0.22uF AGND 1 CT24 T 3 R445 40.2K R S 2 R225 4.99K C399 33pF C260 33pF AGND -2dBu 4 6 AGND R303 4.99K 14 40.2K 5 5 -14dBu 7 OP275 U42 100uF C443 HRT 5 CR10 4 5 10K 6 13 GND -2dBu 6 R224 40.2K X_Y X 6 12 INH Y 11 S U62 74VHC4053 R301 R185 10.0K X_Y X INH Y U62 S 74VHC4053 C274 100uF 3 AGND TO HDPN JACK RT AGND R302 4.99K B LT AGND 1 13 C429 1uF 330pF 3 F10 4 LM675 U101 1 AGND HDPN X_Y X 12 INH Y 11 U59 S 74VHC4053 C415 1uF 2 HPL 4 9 CUE_IN_LT C430 33pF -2dBu V+ 2 R202 6 GND R487 40.2K C234 33pF V+ X_Y X 6 INH Y 10 S U58 74VHC4053 1 V- 15 V+ AES1PRE_RT CUE R292 10.0K C442 22uF R447 10.0K HPR R446 1.00K 3 AGND C384 AGND F9 4 LM675 U90 1 AGND AGND C383 1uF 2 C398 1uF V- AES1PRE_LT R436 R437 3.3 3.3 POLYSW 0.16A C385 330pF AGND 0.22uF AGND AGND CUE_IN_RT A AGND R186 10.0K IN PHASE OUT OF PHASE AGND C235 C237 C233 C407 0.1uF 0.1uF 0.1uF 330uF - SA UR US - Sergey Averin - APPROVALS DRAWN C259 C257 C261 C426 0.1uF 0.1uF 0.1uF 330uF SA 6-16-06 CHECKED SA ISSUED SA W# 700830 8 7 6 5 4 3 A DATE V- 5200D/Jun 2006 5200DC CONTRACT NO. V+ NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-4 SHEET REV A 4 OF 10 1 page 3 - 5 8 7 6 5 +5VAD1 NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY IN PHASE VCC VCC 22 VA+ 4.99K D 19 MCK FCK 16 SEL 9 RXP 10 RXN 13 T3 3 4 R6 AES1_LO 1 R5 220 6 220 23 VCC VD+ C U VERF CBL ERF SDATA SCK FSYNC FILT C35 C34 R36 R37 0.1uF 0.1uF 4.99K 4.99K GND GND GND 1 28 7 25 9 26 10 12 1 11 2 2 20 1 U10 3 1.00K GND 15 16 74ACT02 R44 11 C55 8 0.1uF -2dBu 1.30K R136 AGND 1.30K R137 +5VAD1 +5VA 10 R61 GND AGND C70 4.7uF GND AGND 18 -2dBu -14dBu 6 5 100uF C449 7 OP275 U28 8 CR6 1 2 10K 3 C188 R149 C169 2200pF 16.5K 390pF 13 AGND AGND 8 AGND 5.76K R76 1.30K R103 2 1.30K R104 3 RT -2dBu V+ GND C107 R93 C117 2200pF 16.5K 390pF 10K 5 CR6 4 5 10K 6 4 VAGND AES1L 3 AES1PRE_RT 2 AES1R SW8 R232 13.3K 1 1 R213 40.2K AES 1 -14dBu 4 390pF AES1PRE_RT -2dBu D AES1POST_LT R256 40.2K AGND AES1PRE_LT AES1 12dB Attn C244 10pF AGND 100uF C436 1 OP275 U28 100uF C202 4 390pF C132 C133 4.7uF 10K AES 1 IN 2200pF 1 OP275 U34 CT28 6 390pF C116 -2dBu V+ 2 AES1L AGND 16.5K R92 C106 14 AGND AGND R188 10.0K 3 AGND J3 AGND C448 22uF 390pF 5.76K R75 AOUTR+ MCLK AES1 12dB Attn R187 40.2K AES1PRE_LT LT AOUTR- SW4 C218 10pF 17 DGND AGND 5 CS4390 4 C54 0.1uF AOUTL+ 1 390pF C158 2200pF 5.76K R171 LRCK SCLK SDATA DEM0 DEM1 _______ MUTE_R _______ MUTE_L ___________ AUTO_MUTE 1 R177 13.3K 390pF C168 C159 15 C71 5200_RST AOUTL- DIF0 19 DIF1 12 DIF2 14 3 2 16.5K R148 VA+ 20 AGND __ 6 C0/E0 5 Ca/E1 4 Cb/E2 3 Cc/F0 2 Cd/F1 27 Ce/F2 AGND DGND 21 CS8414 8 U21 VD+ 4.99K 7 M0 24 M1 18 M2 17 M3 VCC GND U13 5.76K R170 +5VA 3 C187 6 R53 R21 0.1uF C5 +5VAD1 VCC OUT OF PHASE AES1_HI 4 -2dBu C435 22uF R233 10.0K 6 AES1R V- 5 7 OP275 U34 100uF C279 AES1POST_RT R276 AGND 40.2K AGND AGND AGND 11 12 U10 C AGND C219 C221 C144 C148 C146 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF +5VAD2 VCC C247 C245 C243 C147 C145 C143 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF VCC 22 R20 V- VA+ 4.99K 19 MCK FCK 16 SEL 9 RXP 10 RXN 13 T2 0.1uF C4 AES2_HI AES2_LO 3 4 1 6 R3 R4 220 220 23 18 VCC VCC C32 C33 R34 R35 0.1uF 0.1uF 4.99K 4.99K GND GND GND GND 5200_RST 5.76K R168 +5VA 16.5K R146 DIF0 19 DIF1 12 DIF2 1 14 28 3 R178 13.3K 390pF C166 AOUTL- 2200pF 7 25 9 -2dBu 1.30K R134 AGND 5.76K R169 26 10 12 1 11 2 5 20 1.00K 4 U10 6 15 16 74ACT02 R43 11 C53 8 0.1uF +5VAD2 +5VA 10 R60 GND GND -2dBu 1.30K R135 -14dBu 6 5 100uF C451 7 OP275 U27 8 CR7 1 2 B 18 C68 4.7uF 4.7uF 10K 3 13 C186 R147 C167 2200pF 16.5K 390pF AGND AGND 5.76K R73 AES2L 390pF C114 8 1.30K R101 AGND 5.76K R74 1.30K R102 390pF C130 -2dBu V+ 1 C105 R91 C115 2200pF 16.5K 390pF AGND AGND 5 AES2L AGND 10K 10K 6 C74 C77 100uF 100uF 100uF AGND C75 C76 100uF 100uF VCC V- VCC 22 R19 VA+ 4.99K 19 AES3_HI SPDIF_HI AES3_LO SPDIF_LO 1 3 4 6 SW1 MCK 13 FCK 16 SEL 9 RXP 10 RXN T1 2 5 0.1uF C3 3 1 4 6 R1 R2 220 220 23 VCC A AES2PRE_RT R214 40.2K 2 AES2R C246 10pF VCC C30 R32 R33 0.1uF 0.1uF 4.99K 4.99K GND U11 GND GND 6 5.76K R166 +5VA AGND 1 14 28 6 AGND 5200D/Jun 2006 100uF C280 AES2POST_RT R260 C437 22uF 40.2K AES2R AGND AGND R179 13.3K 1 B SW6 AES3 12dB Attn R191 40.2K 8 16.5K R144 3 DIF0 19 DIF1 12 DIF2 7 25 9 26 10 12 1 11 2 8 20 U10 9 1.00K 10 15 16 74ACT02 R42 11 C51 8 0.1uF AOUTL- 390pF C164 17 1.30K R133 -2dBu 0.1uF +5VAD3 +5VA 10 R59 GND LRCK SCLK SDATA DEM0 DEM1 _______ MUTE_R _______ MUTE_L ___________ AUTO_MUTE MCLK AOUTL+ 5 7 OP275 U26 C184 R145 C165 16.5K 390pF AOUTR- 13 AGND AGND 10K 3 5.76K R71 AES3L RT AGND 8 1.30K R99 AGND 1.30K R100 C103 R89 C113 2200pF 16.5K 390pF AGND 4 V- 3 AES3PRE_RT 2 AES3R R236 13.3K SW10 1 R215 40.2K 1 AES3 12dB Attn C248 10pF 6 5 OP275 U36 7 100uF C281 40.2K AGND 5200DC CONTRACT NO. -14dBu 1 OP275 U26 100uF C440 - SA UR US - Sergey Averin - CR8 4 5 4 AES3POST_RT R278 AES3PRE_RT -2dBu 2 3 -2dBu R237 10.0K AGND -2dBu V+ C129 GND 4 AGND 390pF C128 2200pF AES3POST_LT R280 40.2K AGND AES 3 IN 390pF C112 5.76K R72 100uF C204 AES 3 390pF 5 AES3L AGND 16.5K R88 C102 14 4.7uF AGND C452 22uF 10K AGND J1 AGND 5 1 OP275 U36 4 CR8 1 2 390pF 2200pF 10K 100uF C453 AES3PRE_LT AGND AOUTR+ AGND C66 18 LT -14dBu 6 3 6 -2dBu V+ 2 CT30 390pF C154 -2dBu 1.30K R132 AGND 5.76K R167 DGND AGND 5 CS4390 4 C50 4.7uF 6 R192 10.0K 2200pF AGND 7 7 OP275 U35 AGND C155 AGND 8 AES2 12dB Attn -2dBu R235 10.0K AES 2 V- VA+ 20 15 GND U19 VD+ 4.99K 7 VD+ C U VERF CBL ERF SDATA SCK FSYNC FILT __ 6 C0/E0 5 Ca/E1 4 Cb/E2 3 Cc/F0 2 Cd/F1 27 Ce/F2 AGND DGND 21 CS8414 8 GND +5VAD3 R51 C67 5200_RST 1 1 AGND C183 VCC M0 24 M1 18 M2 17 M3 C31 GND SW9 3 AES3PRE_LT 100uF V- C222 10pF +5VAD3 C316 4 AGND V+ C356 AES2POST_LT R264 R234 13.3K 5 CR7 4 5 4 AES2PRE_LT 100uF C438 C131 390pF GND AES2PRE_RT -2dBu -14dBu OP275 U27 100uF C203 40.2K 6 4 RT 2 3 10K AES 2 IN 2200pF 1 OP275 U35 CT29 AGND 16.5K R90 -2dBu V+ 2 3 AGND C104 14 AGND AGND R190 10.0K 390pF J2 AGND C450 22uF LT AOUTR- AOUTR+ AGND C69 AGND MCLK AOUTL+ DGND AGND 5 CS4390 4 C52 0.1uF LRCK SCLK SDATA DEM0 DEM1 _______ MUTE_R _______ MUTE_L ___________ AUTO_MUTE AES2 12dB Attn R189 40.2K AES2PRE_LT C SW5 C220 10pF 17 C157 15 1 390pF C156 VA+ 20 AGND __ 6 C0/E0 5 Ca/E1 4 Cb/E2 3 Cc/F0 2 Cd/F1 27 Ce/F2 AGND DGND 21 CS8414 8 U20 VD+ 4.99K 7 VD+ C U VERF CBL ERF SDATA SCK FSYNC FILT GND 6 R52 M0 M1 M2 17 M3 24 +5VAD2 C185 VCC U12 AGND 74ACT02 GND V+ C223 AGND 13 10K 6 C439 22uF APPROVALS A DATE AES3R DRAWN VAGND AGND SA 6-16-06 CHECKED SA ISSUED SA W# 700830 3 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-5 SHEET REV A 5 OF 10 1 page 3 - 6 7 6 2.43K R121 2.43K R160 5 +5VA D4 BAT54 R159 16.5K 3 4.99K -14dBu 23 R122 2 4 2.5V_4 5 10 R86 V- 2.5V_4 2.43K R125 2.43K R163 10 R81 GNDL AINL+ AINL- C85 C86 22uF 0.22uF VREFL VCOML BAT54 D5 +5VA D5 BAT54 PGM_RT_O 4.7uF C196 R162 16.5K 5 2 3 1 OP275 U32 39 R143 3900pF AGND 39 R124 D10 BAT54 -14dBu BAT54 D10 22 U24 23 C87 C88 0.22uF 22uF AGND AESV 9 AESC 10 11 AGND 2 19 HPFE 20 TEST 2.5V_4 -14dBu 4 7 OP275 U32 7 28 VREFR4 VREFR 26 VCOMR4 VCOMR LRCK 14 SCLK 17 MCLK 16 FSYNC C100 V+ 6 3 VCOML4 13 6 8 8 21 AINR+ AINR27 GNDR 330pF C174 330pF C140 1.00K PGM_SDATA DO_SCLK DO_LRCK 1 VREFL4 U15 25 24 2.43K R112 AGND 7 10 R87 V- 2.5V_4 SDATA 15 3 R123 39 24 AK5383 18 4 DFS SMODE1 11 SMODE2 1 12 +5VAD4 VCC +5VAD4 14 ZCAL ____ RST DGND 10 13 9 12 BGND 6 CAL AGND ADC_LRCK ADC_SCLK ADC_MCLK 22 21 AGND AGND DO_MCLK J5 2.5V_4 C197 C195 R161 4.7uF 4.7uF 475 AGND 74ACT08 3 U91 C124 C125 47uF 47uF AGND GND V C/SBF U CBL/SBC VCC R13 220 15 R12 220 ____ PRO ___ C1/FCO TRNPT/FC1 _____ C6/C2 _____ C7/C3 ___ EM1/C8 ___ EM0/C9 ______ C9/C15 6 T5 1 PGM_AES_LO 3 PGM_AES_HI R441 U92 1.00K 17 TXN 20 TXP 4 10 7 3 4 5 6 9 256FS 2 1 CET CEP P0 P1 P2 P3 ___ PE CP ___ SR 4 AGND VCC VCC VCC VCC 5 6 C160 C162 0.1uF 0.1uF C161 C163 0.1uF 0.1uF SW2 R49 R47 R58 R57 4.99K 4.99K 4.99K 4.99K L L H L 2 3 4 9 2 AESV AESC 1 CET CEP P0 P1 P2 P3 ___ PE CP ___ SR 13 GND 330pF C171 1.00K BAT54 D2 330pF C137 +5VA 3 4 4.99K 2 2.5V_5 5 10 R84 V2.43K R119 2.43K R158 10 R79 7 GNDL AINL+ AINL- BAT54 D3 +5VA 3 5 1 OP275 U30 D8 BAT54 -14dBu BAT54 D8 19 -14dBu 4 3900pF AGND 39 R118 2.5V_5 20 10 R85 V- 2.5V_5 18 12 ADC_LRCK ADC_SCLK ADC_MCLK 11 6 +5VAD5 +5VA +5VAD5 C83 C84 0.22uF 22uF AGND AESV 9 AESC 10 11 AGND HPFE TEST SDATA 15 3 R117 39 24 AK5383 4 DFS SMODE1 SMODE2 1 CAL 13 9 14 12 22 21 AGND AGND DO_MCLK 5 16 8 R139 475 J4 C191 C193 R156 4.7uF 4.7uF 475 AGND AGND AGND C122 C123 47uF 47uF AGND GND 1 2 14 PIN DIP SOCKET FOR 24.576MHZ, 22.5792MHZ, 16.384MHZ OSCILATOR. M0 M1 M2 C/SBF U CBL/SBC 3 4 5 6 7 R10 220 ____ PRO ___ C1/FCO TRNPT/FC1 _____ C6/C2 _____ C7/C3 ___ EM1/C8 ___ EM0/C9 ______ C9/C15 6 T4 TXN 20 TXP 1 MXM_AES_LO 4 3 MXM_AES_HI 5200D/Jun 2006 7 15 DO_SCLK 47 R448 U100 64FS 12 1 2 3 4 5 6 7 14 14 13 12 11 10 9 8 13 12 11 10 9 8 74ACT74 U99 ____ 10 SET 9 Q 11 CLK 12 __ D 8 ____ Q 13 CLR VCC VCC VCC VCC IN PHASE VCC VCC VCC VCC VCC VCC VCC VCC VCC VCC C413 C308 C350 C349 C347 C348 C391 C313 C353 C397 C311 C312 C346 C345 C309 C310 C344 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF GND GND GND GND GND 6 5 B ADC_MCLK OUT OF PHASE CS8402 C411 GND 39 R443 74ACT74 5200DC CONTRACT NO. VCC 256FS AGND AGND VCC 64FS2 ADC_SCLK 47 R450 NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY MCK ____ RST GND GND GND GND GND GND GND GND GND DRAWN SA 4 3 A DATE 6-16-06 CHECKED SA ISSUED SA GND W# 700830 8 1FS 17 APPROVALS VCC GND TC U99 ____ SET 5 Q 3 CLK 2 __ 6 D ____ Q 1 CLR - SA UR US - Sergey Averin - GND DO_LRCK R11 220 15 AGND VCC Q0 13 Q1 12 Q2 11 Q3 GND V GND AGND VCC Y2 SDATA SCK FSYNC +5VA L27 2.5V_5 A 23 2 ZCAL ____ 10 RST VCC 7 22 DGND 2 39 R140 BGND R157 16.5K U23 AGND MXM_O 6 28 VREFR5 VREFR 26 VCOMR5 VCOMR LRCK 14 SCLK 17 MCLK 16 FSYNC C98 7 OP275 U30 8 3 VCOML5 13 V+ 0.22uF 1 VREFL5 U14 1.00K 21 AINR+ AINR27 GNDR D3 BAT54 6 8 4.7uF C192 MXM_SDATA DO_SCLK DO_LRCK C82 25 330pF C172 2.43K R110 22uF VREFL VCOML 24 330pF C138 C81 VD 23 R116 BAT54 D7 D7 BAT54 -14dBu AGND R48 3900pF 39 R138 4 2.5V_5 +5VAD5 AGND AGND 39 R114 -14dBu B +5VA VA 1 7 OP275 U29 5 OP275 U29 +5VAD5 VCC C97 V+ 47 R442 C 14 4 D2 BAT54 6 8 ADC_LRCK 15 74AC14 VCC 2 TC 10 R78 R449 R154 16.5K 47 R444 Q0 13 Q1 12 Q2 11 Q3 74ACT163 GND V- 4.7uF C190 DO_MCLK U93 7 AGND MXM_O 39 R451 14 74ACT163 CS8402 10 1 2.43K R109 D 8 74ACT08 AGND AGND 2.43K R155 10 U91 M0 M1 M2 V+ 2.43K R115 9 74ACT08 MCK ____ 16 RST 8 11 13 U91 3 AGND AGND 2 SDATA SCK FSYNC GND AGND 475 12 +5VA L28 R142 1 5 +5VA C 6 U91 74ACT08 R50 BAT54 D9 D9 BAT54 5 VCC +5VAD4 AGND 3900pF 39 R141 AGND 39 R120 -14dBu 4 7 OP275 U31 5 1 OP275 U31 +5VA C99 V+ 2 +5VAD4 VD 4.7uF C194 1 4 BAT54 D4 6 PGM_LT_O 2 10 R80 330pF C139 D 3 330pF C173 2.43K R111 8 4 VA 8 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-6 SHEET REV A 6 OF 10 1 page 3 - 7 8 7 6 5 4 3 2 1 R105 4.99K -2dBu 8 EXT_LT_LO +4dBu BAL EXT_LT_HI LO D HI L21 R97 10.0K L22 R383 20.0K V+ R98 10.0K 3 C109 C101 C127 R106 0.001uF 0.001uF 33pF 4.99K 1 OP275 U25 C94 22uF EXT_IN_LT AGND 4148 D25 R391 10.0K 4148 D27 40.2K 4 AGND D26 4148 V- AGND R384 10.0K 4148 D28 R390 10.0K R126 4.99K C152 33pF AGND 4 7 OP275 U88 D24 4148 V- HI R130 10.0K L30 PGM_LT_O VU_LT PGM_RT_O VU_RT 6 R131 10.0K 5 C181 C182 C153 R127 0.001uF 0.001uF 33pF 4.99K 7 OP275 U25 C199 22uF EXT_IN_RT R173 1 3 4 6 SW13 4 R389 1.00K 5 R382 C355 100K 1uF 6 R380 20.0K AGND 7 R381 1.69K 2 1 CR3 OdBu R388 3 1K SET 3.32K AGND L29 3 GND 6 5 -2dBu 1 2 1 OP275 U88 VCC 4.7uF V+ 2 3 EXT_RT_LO +4dBu BAL EXT_RT_HI -21dB R431 332 -18dB R430 332 -15dB R429 332 -12dB R428 332 -9dB R427 332 -6dB R426 619 -3dB R425 619 0dB R424 619 +3dB R423 619 +6dB R350 332 -21dB R349 332 -18dB R348 332 -15dB R347 332 -12dB R346 332 -9dB R345 332 -6dB R344 619 -3dB R343 619 0dB R342 619 +3dB R341 619 +6dB U87 C354 8 EXT IN LO R432 332 D VCC R70 AGND AGND R394 20.0K 2 AGND 2 R387 20.0K 5 8 9 LED1 LED2 VLED3 V+ LED4 RLO LED5 SIG LED6 RHI LED7 REFOUT LED8 REFADJ LED9 MODE LED10 18 17 16 15 14 13 12 11 10 LM3915 TRIM AGND GND AGND AGND LEFT C126 33pF 40.2K VCC AGND AGND AGND AGND C323 R312 20.0K R337 20.0K 1500uF 4148 D19 GND VCC R333 10.0K VCC R231 C 1 SW12 4148 D21 4.99K D20 4148 8 3 R313 10.0K 4 GND 3 V+ 4148 D22 R332 10.0K 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 VCC V- OP275 U73 7 D18 4148 4 R331 1.00K 5 R311 C315 100K 1uF 6 R309 20.0K R310 1.69K 2 1 CR2 OdBu R330 1K 3 SET 3.32K AGND AGND 7 AGND R329 20.0K 8 9 CUE_O R209 40.2K 1 1.00K 330pF A GND 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 13 12 11 10 B C276 1uF 3 C277 1uF 1 R228 R242 3.3 3.3 POLYSW 0.16A 5200D/Jun 2006 2 3 AGND AGND 0.22uF AGND 5200DC CONTRACT NO. - SA UR US - Sergey Averin - APPROVALS NOTE: PHASE SYMBOLS DENOTE SIGNAL POLARITY IN PHASE OUT OF PHASE DRAWN SA 6 5 4 3 A DATE 6-16-06 CHECKED SA ISSUED SA GND 7 CUE SPKR C239 AGND W# 700830 8 CT23 F7 4 LM675 U47 R210 GND VCC 2 14 2 AGND 1 15 C270 33pF 40 CT18 16 C R229 40.2K C263 VCC 17 AGND GND AGND AGND V- 39 18 LM3915 TRIM 5 VCC LED1 LED2 VLED3 V+ LED4 RLO LED5 SIG LED6 RHI LED7 REFOUT LED8 REFADJ LED9 MODE LED10 V+ B 1 4 3 GND 6 5 AGND 1 2 1 OP275 U73 VCC 4.7uF 2 CT22 GND U72 C314 2 RIGHT AGND 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DCA PCB 80S0046-7 SHEET REV A 7 OF 10 1 page 3 - 8 4 3 2 1 TP3 D1 UF4007 TP1 +BR D ~V36P T7 1 16 C96 DRN R68 47K 3 UF4007 D6 15 ~V16P 14 ~V8P D17 KBL08 R63 C288 1.0M C135 A2 3 270uF 33.2K A2 3 10 BR2 RT1 SG55 VS 3 U44 1 D FB 4 ~V16N 9 A2 3 C266 22uF C 4.7nF 1.0M R250 Y PR2 Z11 1SMB5919 5.6V L34 10mH C265 0.1uF Z9 1SMB5919 5.6V CNY17 4 6 2 R248 R245 1.30K 11.0K C200 PRch12 3 U45 1.0M 0.0047uF R62 C209 C210 22uF 330uF L33 18uH C240 C241 47uF 1500uF L35 4.7uH C284 C285 47uF 1500uF L36 4.7uH A2 3 A1 1 DV16N C178 C179 22uF 330uF 18uH L31 C136 R95 R96 330uF 22uF 2.43K 2.43K C211 C215 R174 R175 +8V 330uF 22uF 619 619 C242 C267 R207 R208 VCC +5V 1500uF 47uF 220 220 C286 C287 R246 R247 +3.3V +3.3V 1500uF 47uF 100 100 GND GND C180 C189 R128 R129 C 330uF 22uF 2.43K 2.43K TP5 -16V R244 88.7K +16V -16V F5 V+ POLYSW 1.0A R243 8.45K 1 C151 +3.3V 330uF 2.5V J6 R230 2 C64 0.0047uF C121 R211 4.99K KA431 C63 L25 18uH +16V 0.47uF PRch11 330uF VCC NOT INSTTALED 1 C269 0.1uF Y C120 22uF D12 GNDP B +8V D +8V R251 1.00K 5 U46 CGND L34 GND R249 1.00K Y 10mH Z8 1SMB5919 5.6V 2.2nF C264 0.47uF C278 2.2nF C238 PR1 GNDP Y +16V MUR3020 K 2 CGND CGND +16V TP9 C89 4.7nF Z10 1SMB5919 5.6V C119 GNDP Z7 1SMB5919 5.6V +36V TP8 D16 C170 10.0K DV3P K 2 A1 1 2 Z250LA40 250V V1 10.0K MBR-4060P Z6 1SMB5919 5.6V S FSDM0565 10uF +36V TP7 D15 VCC PWM TP2 6 220uF DV5P K 2 A1 1 R205 10 6 R65 MBR-4060P UF4007 D14 7 R64 TP6 D13 R206 10 C90 DV8P K 2 A1 1 11 R176 220uF C80 MBR-4060P 33.2K 0.47uF 10uF POLYSW 0.16A DV16P D11 ~V3P 12 12V C79 TP4 K 2 A1 1 ~V5P 13 R165 C78 MUR3020 A2 3 2 2.2nF F4 DV36P B 4.99K R212 CR1 1 2 4.99K (220) 1K 3 330uF F6 GND Y GND AGND C201 AGND V- -16V POLYSW 1.0A F3 FUSE 2.0A T7 FOR ETD-34 TRANSFORMER 14b 3 1 3 2 1 3 2 2 CT12 85-265 VAC 50-60Hz INPUT A 1 CT3 CGND CT13 8VREG +8V PRf2 PRf1 F2 FUSE 2.0A +5VA Q1 F1 13b ~V36P POLYSW 1.0A C18 C19 330uF 1uF 11b 10b 9b IN OUT 3 2 VC P4 GND 4 5 PQ05D C20 C21 1uF 1500uF AGND AGND AGND 5200D/Jun 2006 AGND ~V5P ~V3P APPROVALS DATE DRAWN SA 6-16-06 ~V16N CHECKED SA ISSUED SA 2 A 5200DC CONTRACT NO. GND - SA UR US - Sergey Averin - 8b 3 AGND ~V8P W# 700830 4 Z1 1SMB5919 5.6V ~V16P AGND 12b 1 SIZE FSCM NO. 600 Industrial Drive New Bern, NC 28562 DWG. NO. 80S0046-10 C SCALE 5200DCA PCB SHEET REV A 10 OF 10 1 page 3 - 9 5200 / June 2006 5200D Controller Card (5200DC) Load Sheet page 3 – 10 8 7 6 VCC ENCODERS B B CE1 D 2 C 4 E 4148 D6 AA D 9 SW_X_0 4148 D1 10 SW_Y_1 E ENCODER 8 SW_Y_0 C B 3 A 1 D 5 11 SW_Y_2 D5 4148 5 12 SW_X_0 4 6 3 7 2 8 1 10 9 11 8 B 12 7 1 2 3 4 9 5 CT4 8 10 11 12 D3 4148 SW_Y_4 6 14 5 15 4 16 3 17 2 18 1 LED_Y_0 D8 4148 1 3 7 8 9 10 C 2 B 4 B 3 A 1 D 5 C E 11 4148 D2 SW_Y_0 C A 12 SW_X_1 4148 D7 7 SW_Y_2 D4 4148 8 SW_X_1 9 10 11 4 6 3 7 2 8 1 10 9 11 8 6 14 5 15 4 16 3 17 2 18 SW7 VCC 2 SW9 1 3 GND 4 VCC 2 VCC 3 ON GND 4 VCC 1 2 1 3 4 1 6 3 4 7 8 5 6 5 9 10 7 8 4 11 12 9 10 3 13 14 11 12 2 15 16 13 14 1 17 18 15 16 19 20 17 18 21 22 19 20 23 24 21 22 25 26 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 6 GND GND 4 3 2 1 VCC 6 39 GND B VCC 2 1 3 4 GND VCC 1 4 CUE GND VCC C9 2 330pF 1 GND SW13 GND 4 VCC SW15 2 1 3 GND 4 VCC 2 SW17 1 3 GND 4 ON VCC 2 VCC 1 3 ON SW14 2 1 3 4 CUE P9V GND 4 PGM GND VCC SW16 2 1 3 4 CUE GND VCC SW18 2 1 3 4 CUE GND VCC DSPL_CLK 2 1 3 4 R11 39 DSPL_RS_LP SW_Y_5 MXM CUE R12 39 SW_Y_3 SW1 GND VCC 2 SW2 1 3 GND 4 VCC MXM 2 SW3 1 3 GND 4 VCC MXM 2 SW5 1 3 GND 4 VCC MXM SW6 2 1 3 GND 4 VCC 2 SW19 1 3 GND 4 MXM VCC 2 SW_Y_1 1 3 SW_X_7 SW_X_5 4 SW_X_3 EXT MXM SW_X_1 VCC DS1 Green DS2 VCC DS15 LED_X_7 Green Green LED_X_3 Green LED_X_1 DS17 Green DS4 Green GND DS18 Green DS5 Green VCC DS19 Green DS6 Green VCC VCC VCC VCC C5 C3 C12 C11 C10 150uF 150uF 0.1uF 0.1uF 0.1uF R8 R7 R6 R5 1.00K 1.00K 1.00K 1.00K GND GND GND GND P9V CT1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 GND DS7 Green Yellow DSPL_DIN B SW_Y_4 SW_Y_2 SW_Y_0 SW_X_6 SW_X_4 SW_X_2 SW_X_0 LED_X_6 LED_X_4 LED_X_2 LED_X_0 GND GND GND R4 R3 R2 R9 1.00K 1.00K 1.00K 1.00K GND GND GND VCC VCC GND GND GND VCC VCC VCC Yellow GND GND GND 5200DSW CONTRACT NO. DS22 Yellow DS9 Yellow DS23 Red DS10 Red VCC VCC VCC VCC VCC C7 C8 C2 C4 C6 C1 C15 C16 C14 C13 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF 0.1uF - SA UR US - Sergey Averin - APPROVALS DRAWN DS24 Red Red GND GND GND GND GND GND GND GND GND GND 7 6 5 4 3 A DATE SA 10-16-05 CHECKED SA ISSUED SA W# 700831 5200D/Nov 2005 LED_Y_1 39 R10 DS21 DS8 8 GND DS20 Green A LED_X_5 DS16 DS3 40 220 3 SW12 3 C GND R13 4 ON 2 VCC DSPL_CLK 5 1 3 SW10 2 5 LED_Y_0 SW8 1 6 5 D CT5 GND DS13 2 ON 1 VCC CT2 2 SW11 1 2 7 13 GND GND A 3 1 2 3 4 5 12 CT3 5 12 SW_Y_1 E D ENCODER DSPL_DIN 3 VCC TAKE CE2 4 DS14 SW_X_0 LED_X_0 R1 39 4 A DSPL_RS_LP VCC SW4 2 DSPL_CLK 5 DS11 GND SW_Y_3 6 7 13 SW_X_2 4 VCC DS12 7 5 600 Industrial Drive New Bern, NC 28562 SIZE FSCM NO. SCALE 2 DWG. NO. D 5200DSW-A PCB 80S0045 SHEET REV A 1 OF 1 1 page 3 - 11 5200D Switch Card (5200DSW) Load Sheet 5200 / Nov 2005 page 3 – 12 APPENDIX Appendix Contents Replacement Parts List ............................................................... A-2 For the most part there are no user-replaceable parts in the 5200D. Exceptions are those controls and components that in the course of normal use may need maintenance. A complete list of available components follows. Contact Wheatstone technical support for further information. Wheatstone Corporation (600 Industrial Drive, New Bern, North Carolina, USA 28562) may be reached by phone at 252-638-7000, fax 252-637-1285, electronic mail “[email protected]”. 5200D / Nov 2005 page Appendix – 1 APPENDIX REPLACEMENT PARTS — 5200D NEWS MIXER COMPONENT DESCRIPTION WS P/N 5200DC LOADED CARD 5200D CONTROLLER LOADED CARD ASSEMBLY "008496" 5200D-SW LOADED CARD 5200D SWITCH LOADED CARD ASSEMBLY "008492" I/O CONNECTOR DB-9 RIGHT ANGLE PC MOUNT CONNECTOR "220016" I/O CONNECTOR DB-25 RIGHT ANGLE PC MOUNT CONNECTOR "220120" I/O CONNECTOR 8 GANG RJ45 ASSEMBLY WITH GREEN/YELLOW LED "220137" I/O CONNECTOR SINGLE RIGHT ANGLE RJ45 CONNECTOR WITH GREEN/YELLOW LED "220138" I/O CONNECTOR BLACK FEMALE XLR "260002" HEADPHONE JACK RTS JACK "260005" INPUT JACK 3.5MM STEREO JACK WITH THREADED BUSHING "260064" POWER CORD POWER CORD CONNECTOR WITH PRINTED CIRCUIT TERMINALS "230071" RIBBON PLUG 26 PIN RIBBON PLUG "250043" RIBBON PLUG 40 PIN RIBBON PLUG "250053" HEADER 26 PIN PC MOUNT STRAIGHT HEADER "250044" HEADER 40 PIN BOXED HEADER, STRAIGHT "250056" HEADER 3 PIN .098" HEADER "250062" HEADER 5 PIN .098" HEADER "250064" SWITCH SINGLE POLE MOMENTARY SWITCH W/RED LED "510106" SWITCH SINGLE POLE MOMENTARY SWITCH W/YELLOW LED "510296" NKK SWITCH JB15 SWITCH W/BRIGHTER GREEN LED AND SILICON GASKET "510289" NKK SWITCH JB15 SWITCH W/BRIGHTER RED LED AND SILICON GASKET "510290" NKK SWITCH JB15 SWITCH W/BRIGHTER YELLOW LED AND SILICON GASKET "510291" SWITCH CAP RED SWITCH CAP "530003" SWITCH CAP WHITE SWITCH CAP "530004" POT 10KΩ DUAL AUDIO CONDUCTIVE PLASTIC, BOURNS "500057" POT 10KΩ SINGLE AUDIO CONDUCTIVE PLASTIC, 1/8" shaft, PC mount "500058" ENCODER 11MM ROTARY ENCODER WITH THREADED BUSHING "560002" ENCODER KNOB 15mm GREY COLLET KNOB FOR 1/8" SHAFT "520022" ENCODER KNOB 11MM BLACK PUSH-ON KNOB "520105" ENCODER KNOB 21mm GRAY COLLET KNOB FOR 1/8" SHAFT "520108" ENCODER CAP GRAY CAP W/BLACK LINE FOR 21mm COLLET KNOB "530035" ENCODER CAP 11mm LIGHT GRAY CAP W/LINE FOR 15mm KNOB "530042" ENCODER CAP PLAIN GREY CAP FOR 11mm COLLET KNOB "530293" ENCODER CAP 21MM BLUE CAP WITH WHITE LINE "530348" LUMA BUTTON CUSTOM MILKY WHITE STYRENE WITH UV INHIBITOR LIGHT PIPE BUTTON "530274" LUMA BUTTON CLARIANT SL31664855 25:1 PS TRANSLUCENT RED LUMA-3 light pipe button "530275" DISPLAY 4 SEGMENT GREEN ALPHA NUMERIC DISPLAY "600016" SPEAKER 2W/4W 8 OHMS 3" SPEAKER "960012" MANUAL 5200D OWNER'S MANUAL "008493" 5200D / Nov 2005 page Appendix – 2