Handbook
Table Of Contents
- Fig A: Packing List.
- Fig B: Mains Cable Wire Colours
- Fig C: Mains Lead Table.
- Fig D: RB-RK1Small Redbox Front Rack-mount Kit .
- Fig E: RB-RK2 Small Redbox Rear Rack-mount Kit.
- Fig F: RB-RK3 Large Redbox Rear Rack-mount Kit.
- Fig 1-1: RB-SS10 Front Panel.
- Fig 1-2: RB-SS10 System Block Diagram.
- Fig 1-3: RB-SS10 Front Panel.
- Fig 1-4: RB-SS10 Rear Panel.
- Fig 1-5: Analogue Audio Inputs Pin Connections
- Fig 1-6: Remote Start Pin Connections.
- Fig 1-7: Connection Example.
- Fig 1-8: Remote Select/Switch Input Connections.
- Fig 1-9: Connection Example.
- Fig 1-10: Status Output Pin Connections.
- Fig 1-11: Connection Example.
- Fig 2-1: RB-DSS10 Front Panel.
- Fig 2-2: RB-DSS10 System Block Diagram.
- Fig 2-3: RB-DSS10 Front Panel.
- Fig 2-4: RB-DSS10 Rear Panel.
- Fig 2-5: Digital Audio Inputs and S/PDIF Output Pin Connections.
- Fig 2-6: Remote Start Pin Connections.
- Fig 2-7: Connection Example.
- Fig 2-8: Remote Select/Switch Input Connections.
- Fig 2-9: Connection Example.
- Fig 2-10: Status Output Pin Connections.
- Fig 2-11: Connection Example.
- Fig 3-1: RB-PMX4 Front Panel .
- Fig 3-2: RB-PMX4 Block Diagram.
- Fig 3-3: RB-PMX4 Rear Panel.
- Fig 3-4: RB-PMX4 Front Panel Controls.
- Fig 4-1: RB-SSML1 Front Panel.
- Fig 4-2: RB-SSML1 Block Diagram.
- Fig 4-3: RB-SSML1 Rear Panel.
- Fig 4-4: DIP Switch to Control Mic & Meter Features.
- Fig 4-5: RB-SSML1 Front Panel.
- Fig 5-1: RB-MA1 & RB-MA2 Front Panel.
- Fig 5-2: RB-MA1 & RB-MA2 Block Diagram Single Channel.
- Fig 5-3: RB-MA1 Rear Panel.
- Fig 5-4: RB-MA2 Rear Panel.
- Fig 5-5: Switch to Control LF Filter and Phantom Power.
- Fig 6-1: RB-DMA2 Front Panel.
- Fig 6-2: RB-DMA2 System Block Diagram.
- Fig 6-3: RB-DMA2 Front Panel.
- Fig 6-4: Jumpers to Disable Fine Gain Control.
- Fig 6-5: RB-DMA2 Rear Panel.
- Fig 6-6: RB-DMA2 Status Select Switches.
- Fig 6-7: RB-DMA2 Frequency and Sync Rotary Switch Selections.
- Fig 7-1: RB-ML2 Front Panel.
- Fig 7-2: RB-ML2 Block Diagram.
- Fig 7-3: RB-ML2 Rear Panel.
- Fig 7-4: Switch to Control LF Filter and Phantom Power.
- Fig 8-1: RB-SL2 Front Panel.
- Fig 8-2: RB-SL2 Block Diagram.
- Fig 8-3: RB-SL2 Rear Panel.
- Fig 9-1: RB-SM1 & RB-SM2 Front Panel.
- Fig 9-2: RB-SM1 & RB-SM2 Block Diagram Single Channel.
- Fig 9-3: RB-SM1 Rear Panel..
- Fig 9-4: RB-SM2 Rear Panel.
- Fig 10-1: RB-LC3 Front Panel.
- Fig 10-2: RB-LC3 Block Diagram.
- Fig 10-3: RB-LC3 Rear Panel
- Fig 10-4: Output 1 Configuration Setting.
- Fig 10-5: Output 2 Configuration Settings.
- Fig 10-6: Output 3 Configuration Settings.
- Fig 11-1: RB-MM1 Front Panel.
- Fig 11-2: RB-MM1 System Block Diagram.
- Fig 11-3: RB-MM1 Rear Panel.
- Fig 12-1: RB-OA3 Front Panel.
- Fig 12-2: RB-OA3 System Block Diagram.
- Fig 12-3: RB-OA3 Rear Panel.
- Fig 12-4: RB-OA3 Unit Identity Definitions.
- Fig 12-5: RB-OA3 Unit Identity Reset Settings.
- Fig 12-6: RB-OA3 Studio Expansion Diagram.
- Fig 12-7: RB-OA3 Bus Expansion Diagram.
- Fig 12-8: RB-OA3 Studio & Bus Expansion Diagram.
- Fig 12-9: RB-OA3 Multiple RB-OA3 Expansion Diagram.
- Fig 12-10: Offer & Accept Button Operation (Flashing is indicated by radial lines around a button).
- Fig 12-11: RB-OA3 LSO Expansion Connector Definitions.
- Fig 12-12: RB-OA3 LSO Expansion Connector Details.
- Fig 12-13: RB-OA3 Mix Input Connector Definitions.
- Fig 12-14: RB-OA3 Mix Input Connector Details.
- Fig 12-15: RB-OA3 Transmission I/O Connector Definitions.
- Fig 12-16: RB-OA3 Transmission Outputs Connector Details.
- Fig 12-17: RB-OA3 Studio 1-3 Audio Connector Definitions.
- Fig 12-18: RB-OA3 Studio 1-3 Audio Connector Details.
- Fig 12-19: RB-OA3 Studio 1-3 Control Connector Definitions.
- Fig 12-20: RB-OA3 Switch & Lamp Control Details.
- Fig 12-21: RB-OA3 Profanity Delay Control Connector Definitions..
- Fig 12-22: RB-OA3 Profanity Delay Control Connector Details.
- Fig 12-23: RB-OA3R Front Panel.
- Fig 12-26: RB-OA3R Pin Out Definitions.
- Fig 12-27: RB-OA3R Pin Out Positions.
- Fig 13-1: XLR Connectors.
- Fig 13-2: RCA Phono Connector.
- Fig 13-3: ¼” Jack Connector.
- Fig 13-4: 25 Way D-Type Connectors.
- Fig 13-5: 15 Way D-Type Connectors.
- Fig 13-6: 9 Way D-Type Connectors.
- Warranty
- Safety Information
- 1 RB-SS10 10 Way Stereo Analogue Source Selector/Mixer
- Technical Specifications RB-SS10
- 2 RB-DSS10 10 Way Stereo Digital Source Selector
- Technical Specifications RB-DSS10
- 3 RB-PMX4 10 Input, 4 Output Analogue Preset Mixer
- Technical Specifications RB-PMX4
- 4 RB-SSML1 Mic/Line Source Selector with Compressor Limiter
- Technical Specifications RB-SSML1
- 5 RB-MA1 Single & RB-MA2 Dual Microphone Amplifiers
- Technical Specifications RB-MA1 & RB-MA2
- 6 RB-DMA2 Dual Digital Microphone Amplifier
- Technical Specifications RB-DMA2
- 7 RB-ML2 Stereo Microphone & Line Level Limiter
- Technical Specifications RB-ML2
- 8 RB-SL2 Twin Mono, or Stereo, Limiter
- Technical Specifications RB-SL2
- 9 RB-SM1 Single & RB-SM2 Dual Stereo To Mono Converter
- Technical Specifications RB-SM1 & RB-SM2
- 10 RB-LC3 3 Way Light/Power Controller
- Technical Specifications RB-LC3
- 11 RB-MM1 Mix Minus Generator
- Technical Specification RB-MM1
- 12 RB-OA3 3 Studio On-Air Switcher
- Introduction
- System Block Diagram
- Rear Panel Connections and Operation
- Installation Guide for the RB-OA3
- Configuring for OperationThe RB-OA3 can be used in both single (MASTER) and multiple expansion modes.
- Single (MASTER) Mode When used as a single (MASTER) unit, the RB-OA3 is used to switch 3 stereo busses between 3 studios, allowing them to share the same transmission path and peripheral devices such as hybrids or profanity delays. A single unit must always be configured as a MASTER unit.
- Serial PortsConnect the serial ports of the MASTER and BUS EXPANSION SLAVE units together using a standard RJ45 network cable (not a cross-over cable).Studio & Bus (4 Unit) Expansion
- Indications – How The LEDS Are Used
- Operational Modes
- Rear Panel Connections & Operation
- Technical Specification RB-OA3
- RB-OA3R Remote Switch Panel For RB-OA3
- Technical Specification RB-OA3R
- RB-OA3C Expansion Unit Cable Kit For RB-OA3
- Technical Specification RB-OA3C
- 13 Connectors & Cabling
- 14 Glossary
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Redbox User Handbook No 3
WEEE & RoHS Directives - Sonifex Statement
The Waste Electrical and Electronic Equipment (WEEE) Directive was agreed on
13 February 2003, along with the related Directive 2002/95/EC on Restrictions
of the use of certain Hazardous Substances in electrical and electronic
equipment (RoHS).
The Waste Electrical and Electronic Equipment Directive (WEEE) aims to minimise the
impacts of electrical and electronic equipment on the environment during their life times
and when they become waste. It applies to a huge spectrum of products. It encourages
and sets criteria for the collection, treatment, recycling and recovery of waste electrical and
electronic equipment. All products manufactured by Sonifex Ltd have the WEEE directive
label placed on the case. It gives a contact for individuals who are unsure about the correct
procedure when the product has reached its “end of use”.
Sonifex Ltd will be happy to give you information about local organisations that can
reprocess the products, or alternatively all products that have reached “end of use” can be
returned to Sonifex and will be reprocessed correctly free of charge.
Sonifex Ltd has phased out the use of certain hazardous substances identied in the
European Union’s Restriction of Hazardous Substances (RoHS) directive. The RoHS directive
limits the use of certain hazardous substances currently used in EEE manufacture, including
lead, mercury, cadmium, hexavalent chromium, and halide-containing compounds PBB
(polybrominated biphenyl) and PBDE (polybrominated diphenyl ether). Elimination of these
substances will result in more environmentally friendly recycling of electronic equipment.
For the products which Sonifex manufacture, the main area where products were aected
was in the use of lead for manufacturing and assembling electronics circuit boards.
Sonifex Ltd practices lead-free (LF) manufacturing processes. LF solder is used on the
surface-mount PCB manufacturing processes and for hand soldering. The printed circuit
boards (PCBs) used are either gold plated, or immersion tin plated, both of which use no
lead. Historically the PCBs were hot air solder levelled (HASL) PCBs which used tin/lead
based solder.
The manufacturing processes include the assembly of purchased components from various
sources. Product is oered as RoHS compliant, or LF, only after sucient evidence is received
from the component manufacturers that their components are RoHS compliant. Sonifex
Ltd relies solely on the distributor, or manufacturer, of the components for identication of
RoHS compliance. Thus whilst every eort is made to ensure compliance, Sonifex Ltd makes
no warranty, or certication, or declaration of compliance concerning said components.
Sonifex Ltd denes “Lead Free” as pertaining to any product, which has been manufactured
by Sonifex Ltd using components which have been declared by the manufacturers as
“Lead Free”. All statements by Sonifex Ltd of RoHS compliance are based on component
manufacturer documentation.
SAFETY & INSTALLATION INFORMATION
SAFETY & INSTALLATION
INFORMATION