Lawo AG, Germany Phone: +9 00-0 Web: www.lawo.de Data Sheet Rev. 00-0-0 DALLIS Serial Data Port serial multi-format data converter 9/ Serial Data bidirectional data Ports, data rates up to 00 bps Supports RS, RS, MIDI Uses channel of audio for data transport per port Isolated I/O Copyright/Disclaimer All rights reserved. Permission to reprint or electronically reproduce any document or graphic in whole or in part for any reason is expressly prohibited, unless prior written consent is obtained from the Lawo AG. All trademarks and registered trademarks belong to their respective owners. It cannot be guaranteed that all product names, products, trademarks, requisitions, regulations, guidelines, specifications and norms are free from trade mark rights of third parties. All entries in this document have been thoroughly checked, however no guarantee for correctness can be given. Lawo AG cannot be held responsible for any misleading or incorrect information provided throughout this manual. Lawo AG reserves the right to change specifications at any time without notice Lawo AG, March 0
9/ Related Products Product Description Name DALLIS Frame RU RU, IO slots/hp, master card slots 90/0 DALLIS Frame RU RU, IO slots/hp, master card slots, phantom power slot 90/0 DALLIS Master ATM Port ATM, MMF. µm/00 nm, connector Duplex-SC, 0 channels I/O 9/0 DALLIS Master MADI Port MADI, MMF/SMF, 00 nm, connector Duplex-SC, channels I/O 9/X DALLIS Master MADI Ports MADI (redundant fibre), MMF/SMF, 00 nm, connectors Duplex-SC, 9/X channels I/O General T A = C. System sample frequency f s= khz or f s=9 khz unless otherwise noted. Parameter Conditions Min. Typ. Max. Unit Serial Ports Multi Format I/O # Standards RS RS MIDI Mode of operation System sample rates f s.//./9 khz Data rate. kbps Resolution requires transparent audio path ( MSBs) bits Cooling requirement Power dissipation V, all ports in RS mode. W Mechanical data Height RU Width HP Depth incl. locking devices mm Weight 9 g Power Supply T A = C. System sample frequency f s= khz or f s=9 khz unless otherwise noted. Parameter Conditions Min. Typ. Max. Unit Operating supply voltage DC. V Nominal supply current V, all ports in RS mode 0. A Nominal power consumption V, all ports in RS mode. W /9 Rev. 00-0-0
9/ Multi Format Data Inputs T A = C. System sample frequency f s= khz or f s=9 khz unless otherwise noted. Parameter Conditions Min. Typ. Max. Unit Electrical specification Connector type RJ Data rate. kbit/s Delay RXD to Backplane out f s = khz. µs f s = 9 khz µs Receivers, RS mode Input voltage range RXD relative to ISOGND V Input threshold 0 (Space) relative to ISOGND.. V Input threshold (Mark) relative to ISOGND. 0. V Input resistance kω Maximum ground differential V GND V ISOGND 0 0 V Receivers, RS mode Input voltage range RXD+, RXD, relative to ISOGND V Differential threshold voltage min. noise margin of 0mV when no cable connected 00 0 mv Input Resistance Bus termination always on 00 Ω Maximum Ground Differential V GND V ISOGND 0 0 V Receivers, MIDI mode Input voltage range RXD+ relative to RXD 0. V Input current through optocoupler 0 ma Reverse voltage RXD+ relative to RXD V Multi Format Data Outputs T A = C. System sample frequency f s= khz or f s=9 khz unless otherwise noted. Parameter Conditions Min. Typ. Max. Unit Electrical specification Data rate. kbit/s Delay Backplane in to TXD f s = khz µs f s = 9 khz µs Transmitters, RS mode Output voltage swing TXD relative to ISOGND, load kω ± ±. V Driver Load kω Cable length data rate. kbit/s m Transmitters, RS mode Differential output voltage R Term = 00Ω. V Common mode output voltage TXD+, TXD, relative to ISOGND. V Short circuit output current prior to foldback current-limiting 0 +0 ma Cable length data rate. kbit/s 00 m Transmitters, MIDI mode Output voltage TXD+ relative to GND V Short circuit output current ma Cable length m /9 Rev. 00-0-0
9/ Auxiliary Data T A = C. Master cards 9/0X, 9/X. Parameter Conditions Result Data In to Backplane Out Channel status data f s, no linear PCM audio, word length = Bit, Origin = Data, others default ) User data bit always 0 Validity bit always invalid Backplane In to Data Out Channel status data User data bit Validity bit ) Professional; Channel; CRC correct; all others 0 don t care don t care don t care Indicators Indicator Status Condition ACTIVE green flashing normal operation, no errors detected static green an internal error has occurred off no power or an internal error has occurred Jumpers Used to set data format for each port individually. RS RS MIDI Reserved (RS, future option) /9 Rev. 00-0-0
9/ Further particulars/explanatory notes Introduction This DALLIS I/O-card was designed to provide a transparent bidirectional path for different types of serial data streams using PCM audio channels. Thereby, data rates up to 00 kbit/s are supported. The serial data is sampled, packed as audio and handled by the routing system like a regular audio source. Audio sent into the router will be marked as non PCM audio to avoid undesirable noise when accidentally routed to an analog output. To avoid ground loops with non-audio equipment the serial ports are isolated to the system audio ground. Warning Always carefully set the port jumpers to the desired port mode. Some of these modes generate voltages that may damage connected equipment, when electrical formats do not match! Also the 9/ may be damaged when applying stresses beyond the allowed range per port mode! Supported system sample rates Some text passages refer to sample rates as basic condition with respect to certain parameters. Please note that in this regard fs= khz also comprises fs=. khz and fs= 9 khz also comprises fs=. khz. The manufacturer's tests at fs= khz or fs= 9 khz are designed to represent all sample rates. Grounding All ports have an individual isolated signal ground with respect to the DALLIS audio ground potential. Maximum offset voltage between any applied signal ground and DALLIS audio ground is ±0V. When connecting a 9/ input to an isolated output, the signal ground must be tied to chassis ground at one end to avoid floating. Otherwise the maximum offset voltage might be violated, leading to incorrect function of the port. Connectors / Indicators SERIAL DATA 9/ /9 Rev. 00-0-0
9/ Block diagram RJ el. Interface SAMPLE & PACK isolated UNPACK & RESTORE WCLK RJ el. Interface SAMPLE & PACK.... isolated UNPACK & RESTORE /9 Rev. 00-0-0
9/ Port Modes The 9/ Serial Data card supports different electrical port formats RS ning RJ Comment RJ fe 9/ Transmitted data isolated TX GND 9/ Received data isolated GND isolated RX GND isolated GND connect to remote GND connect to remote GND RS wiring scheme to DTE fe RJ RJ Data Terminal Equipment e.g. Com Port of PC 9 DTE 9/ DTE 9/ Gnd Isognd = do not connect,,,, 9/ RS wiring scheme to DCE Data Communications Equipment DCE 9/ 9/ DCE 9/ e.g. Modem Gnd Isognd, 9,,, = do not connect RJ RJ /9 Rev. 00-0-0
9/ RS ning RJ Comment RJ fe 9/ Transmitted data + 9/ Transmitted data - 9/ Received data + isolated GND 9/ Received data - isolated GND connect to remote GND connect to remote GND RS/Sony 9 wiring scheme Master to 9/ RJ RJ Sony 9 pin controlling device Master 9 Chassis Data + 9/ Data - 9/ TX GND Isognd RX GND Isognd Data - 9/ Data + 9/ Chassis 9/ = do not connect, RS/Sony 9 wiring scheme Slave to 9/ RJ RJ Sony 9 pin controlled device Slave 9 Chassis Data + 9/ Data - 9/ RX GND Isognd TX GND Isognd Data - 9/ Data + 9/ Chassis 9/, = do not connect /9 Rev. 00-0-0
9/ MIDI ning RJ Comment RJ fe 9/ MIDI out + 9/ MIDI out - 9/ MIDI in + GND 9/ MIDI in - GND = Audio GND! = Audio GND! MIDI wiring scheme MIDI OUT to 9/ DIN RJ RJ MIDI out controlling device DIN SHLD MIDI + 9/ MIDI - 9/ Shield = do not connect,,,,, 9/ MIDI wiring scheme MIDI IN to 9/ RJ RJ MIDI in controlled device DIN SHLD SHLD GND MIDI + 9/ MIDI - 9/ SHLD GND = do not connect,,,, 9/ Note: A 9/ port in MIDI mode may also be used to interface with MIDI IN and MIDI OUT simultaneously. Please do not connect the cable shield at the receiving side. 9/9 Rev. 00-0-0