Toa VX-2000 Series System Design Manual
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Summary of Contents for Toa VX-2000 Series
- Page 1 Система оповещения TOA VX-2000 | toa.com.ua System Design Guide for...
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Page 2: Table Of Contents
Contents 1. General Description ....................1-1 2. System Features ......................2-1 3. Maximum System Examples 3.1. Block Diagram ......................3-1 3.2. Maximum System Configuration Table ................. 3-2 4. Specifications 4.1. Fireman's Microphone RM-200XF ................4-1 4.2. Remote Microphone RM-200X ................... 4-2 4.3. - Page 3 Contents 5.3. Settings 5.3.1. PC Hardware Requirements ................5-17 5.3.2. Offline Settings ....................5-18 5.4. Installation 5.4.1. Online Settings ....................5-21 5.4.2. Connections Between VX-2000 and PC ............5-22 5.4.3. System File Download ..................5-23 5.4.4. Equipment Configuration Check ............... 5-24 5.4.5.
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Page 4: General Description
1. General Description 1. General Description The TOA VX-2000 Series broadcast system is designed for both general-purpose and emergency broadcasts. It is comprised of the System Manager, Surveillance Frame, Power Amplifiers, Power Supply unit, Emergency Power Supply, and a user-specified number of Remote Microphones. The system complies with the EN60849 Standard and its failure detection circuitry operates continuously to check components and speaker lines for any irregularities. -
Page 5: System Features
2. System Features 2. System Features Modular System Offers Connection to Various Sound Sources. The VX-2000 System Manager features 8 input slots that permit the use of various input sources with the selection of corresponding modules. Up to 8 Remote Microphones Can Be Connected. •... - Page 6 2. System Features 2. System Features Individual Block Failure Detection Circuitry • This failure detection function monitors cable connections between the Remote Microphones and the VX- 2000, between the VX-2000 and the VX-2000SF, between the VX-2000SF and the VP power amplifiers, and between the VP power amplifiers and the speakers.
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Page 7: Maximum System Examples
3. Maximum System Examples 3.1. Block Diagram The following block diagram shows the maximum size system that can be assembled with the VX-2000 Series. VX-2000 VX-2000SF No.1 SF-1 VP-2421 Standby Amplifier VP-200VX RM-200XF + RM-210 x 10 VP-2064 ZONE 1... -
Page 8: Maximum System Configuration Table
3. Maximum System Examples 3.2. Maximum System Configuration Table Component Maximum No. of Units Input Source Equipment RM-200XF 4 units 8 units in total of 18 units in total of all both models Input Source Equipment RM-200X 8 units Paging Microphone and Music 8 units Sources (MD, CD, etc.) EV-200... -
Page 9: Specifications
4. Specifications 4.1. Fireman's Microphone RM-200XF Power Source 24 V DC (Operating range: 16 – 40 V DC) Current Consumption Under 200 mA (RM-200XF), 850 mA (with 10 RM-210s connected) Audio Output 0 dB*, 600Ω, balanced Hand-Held Microphone Dynamic microphone, Function switch (default: Press-to-talk), Microphone element fault detection Distortion Under 1%... -
Page 10: Remote Microphone Rm-200X
4. Specifications 4.2. Remote Microphone RM-200X Power Source 24 V DC (operating range: 16 – 40 V DC), supplied from RJ45 connector or power input jack (non-polarity type) Usable power input plug: 5.5 mm outer diameter, 2.1 mm inner diameter, and 9.5 mm long Current Consumption Under 200 mA (RM-200X), 750 mA (with 9 RM-210s connected) -
Page 11: Remote Microphone Extension Rm-210
4. Specifications 4.3. Remote Microphone Extension RM-210 Current Consumption 20mA max. (in terms of RM-200M's DC power input) 75mA max. (in terms of DC power inputs of RM-200X and RM-200XF) Connection Connection to RM-200M, RM-200X or RM-200XF by way of dedicated cable Number of Function Keys Function When used to expand the RM-200M:... -
Page 12: System Manager Vx-2000
4. Specifications 4.4. System Manager VX-2000 Power Source 24V DC (operating range: 20 – 40V DC) M3.5 screw terminal, distance between barriers: 8.8m Current consumption Under 650mA (20V DC) Input –20dB*, unbalanced, Number of module slots: 8 Usable module: VX-200XR, VX-200XI, 900 series plug-in modules (M-01F, M-01M, M-01P, M-01S, M-03P, M-51F, M-51S, M-61F, M-61S, M-61T, U-01F, U-01P, U-01R, U-01S, U-01T, M-03R, U-03S, U-61S, U-61T) Audio Link Output... -
Page 13: Remote Microphone Input Module Vx-200Xr
4. Specifications 4.5. Remote Microphone Input Module VX-200XR Power Source Supplied from VX-2000 Current Consumption Under 15 mA Connectable Remote Microphone RM-200X and RM-200XF Input Connector RJ45 female connector Twisted-pair straight cable (TIA/EIA-568A standard) Finish Panel: Alumite finished aluminum, white Dimensions 35 (W) x 78 (H) x 88 (D) mm Weight... -
Page 14: Audio Input Module With Control Input Vx-200Xi
4. Specifications 4.6. Audio Input Module with Control input VX-200XI Power Source Supplied from VX-2000 Current Consumption Under 30 mA Input Sensitivity MIC: –70 to – 42.5dB* (adjustable) (Rated Output –20dB) LINE: –20 to +7.5dB* (adjustable) MIC or LINE selectable by the built-in switch Low Cut Filter (100 Hz) 9 to 15 dB attenuation (adjustable) High Cut Filter (10 kHz) -
Page 15: Voice Announcement Board Ev-200
4. Specifications 4.7. Voice Announcement Board EV-200 Power Source 24 V DC, 0.2 A Power Consumption Output 0 dB* Frequency Response 20 – 20,000 Hz (44.1 kHz sampling) 20 – 14,000 Hz (32 kHz sampling) Distortion Under 0.3% (44.1 kHz, recording method: Extremely High) Memory Card SanDisk* CompactFlash*... -
Page 16: Surveillance Frame Vx-2000Sf
4. Specifications 4.8. Surveillance Frame VX-2000SF Power Source 24 V DC (operating range: 20 – 40 V DC) M3.5 screw terminal, distance between barriers: 8.8m Current consumption Under 2 A (40 V DC) Number of Module Slot 10, usable modules: VX-200SZ, VX-200SP, VX-200SI, VX-200SO Frequency Response 20 –... -
Page 17: Impedance Detection Module Vx-200Sz
4. Specifications 4.9. Impedance Detection Module VX-200SZ Supplied from VX-2000SF Power Source Under 150mA Current Consumption RJ45 female connector for connecting the VP-2064, VP-2122, Power Amplifier Link VP-2241, VP-2421 Power Amplifier. Twisted-pair straight cable (TIA/EIA-568A standard) Plug-in screw connector, relay, no-voltage make contact output, transfer type, External Attenuator Control withstand voltage: 30V DC, 250V AC, contact current: Under 7A (DC), Output... -
Page 18: Pilot Tone Detection Module Vx-200Sp
4. Specifications 4.10 Pilot Tone Detection Module VX-200SP Power Source Supplied from VX-2000SF Current Consumption Under 100mA Power Amplifier Link RJ45 female connector for connecting the VP-2064, VP-2122, VP-2241, VP-2421 Power Amplifier. Twisted-pair straight cable (TIA/EIA-568A standard) Line Monitor Plug-in screw connector Applicable cable diameter: AWG24 –... -
Page 19: Control Input Module Vx-200Si
4. Specifications 4.11. Control Input Module VX-200SI Power Source Supplied from VX-2000SF Current Consumption Under 100 mA Control Input inputs, no-voltage make contact, open voltage: 24V DC, short circuit current: under 10mA, RJ45 connector Finish Panel: Surface-treated steel plate Dimensions 30.5 (W) x 132.6 (H) x 290.3 (D) mm Weight 200 g... -
Page 20: Control Output Module Vx-200So
4. Specifications 4.12. Control Output Module VX-200SO Power Source Supplied from VX-2000SF Current Consumption Under 150 mA Control Output outputs, no-voltage make contact, contact capacity: 28V DC, 1A, RJ45 connector Finish Panel: Surface-treated steel plate Dimensions 30.5 (W) x 132.6 (H) x 290.3 (D) mm Weight 250 g Applicable Model... -
Page 21: Equaliser Card Vx-200Se
4. Specifications 4.13. Equaliser Card VX-200SE Power Source Supplied from VX-200SZ, VX-200SP Current Consumption Under 50 mA Equaliser Centre Frequency 80 Hz, 125 Hz, 250 Hz, 500 HZ, 1 kHz, 2 kHz, 4 kHz, 8 kHz, 12 kHz Gain Range ±12 dB, adjustable in 2 dB steps Dimensions 110 (W) x 90 (H) x 21.4 (D) mm... -
Page 22: Power Amplifier 4 X 60 W Vp-2064
4. Specifications 4.14. Power Amplifier 4 x 60 W VP-2064 28 V DC (operating range: 20 – 40 V DC) Power Source M4 screw terminal, distance between barriers: 12mm 4.8 A in total Current Consumption (EN60065) 60 W x 4 Rated Output Power 100V/167Ω, 70V/83Ω, 50V/41Ω... -
Page 23: Power Amplifier 2 X 120 W Vp-2122
4. Specifications 4.15. Power Amplifier 2 x 120 W VP-2122 28 V DC (operating range: 20 – 40 V DC) Power Source M4 screw terminal, distance between barriers: 12mm 4.8 A in total Current Consumption (EN60065) 120 W x 2 Rated Output Power 100V/83Ω, 70V/41Ω, 50V/21Ω... -
Page 24: Power Amplifier 1 X 240 W Vp-2241
4. Specifications 4.16. Power Amplifier 1 x 240 W VP-2241 28 V DC (operating range: 20 – 40 V DC) Power Source M4 screw terminal, distance between barriers: 12mm 4.8 A Current Consumption (EN60065) 240 W Rated Output Power 100V/41Ω, 70V/21Ω, 50V/10Ω Output Voltage/Impedance (selectable by the internal wiring change) Number of Channels... -
Page 25: Power Amplifier 1 X 420 W Vp-2421
4. Specifications 4.17. Power Amplifier 1 x 420 W VP-2421 28 V DC (operating range: 20 – 40 V DC) Power Source M4 screw terminal, distance between barriers: 12mm 7.6 A Current Consumption (EN60065) 420 W Rated Output Power 100V/24Ω, 70V/12Ω, 50V/6Ω Output Voltage/Impedance (selectable by the internal wiring change) Number of Channels... -
Page 26: Power Amplifier Input Module Vp-200Vx
4. Specifications 4.18. Power Amplifier Input Module VP-200VX Power Source Supplied from VP-2064, VP-2122, VP-2241, or VP-2421 Current Consumption Under 30 mA Power Amplifier Link RJ45 female connector for connecting the VX-200SP or VX-200SZ Audio Output module. Twisted-pair straight cable (TIA/EIA-568A standard) Finish Panel: Surface treated steel plate Dimensions... -
Page 27: Power Supply Unit Vx-200Ps
4. Specifications 4.19. Power Supply Unit VX-200PS Power Source 230 V AC, 50/60 Hz Power Consumption 580 W PS OUT Rated output: 210 W (29V , 7.25 A) x 2 Peak output: 400 W x 2 M4 screw terminal, distance between barriers: 11 mm Operating Temperature 0°C to +40°C Applicable Frame... -
Page 28: Emergency Power Supply Vx-2000Ds
4. Specifications 4.20. Emergeny Power Supply VX-2000DS Power Source 230 V AC, 50/60 Hz Power Consumption 240 W maximum Applicable Battery YUASA NP Series (12 V x 2 or 4) Charging Method Trickle charging Charging Current 5 A maximum Charging Output Voltage 27.3 V ±0.3 V (at 25°C) Temperature correction coefficient: –40 mV/°C Power Supply Input... -
Page 29: Power Supply Frame Vx-2000Pf
4. Specifications 4.21. Power Supply Frame VX-2000PF Finish Panel: Surface-treated steel plate, black, 30% gloss, paint Dimensions 483 (W) x 132.6 (H) x 324.8 (D) mm Weight 5.5 kg Product Composition Side panel x 2, Chassis x 1, Front panel x 1 Usable Unit VX-200PS (up to 3) •... -
Page 30: Typical System Outline
5. Typical System Examples 5.1. Typical System Outline 5.1.1. External View of the Building Here, system installations, settings, connections and operations are explained, taking some typical systems as an example. The building shown below is used as an example. The location is a hotel where Building A is linked with Building B. Building A was built earlier, and Building B added later. -
Page 31: Internal Wiring
5. Typical System Examples 5.1. Typical System Outline 5.1.2. Internal Wiring Speaker arrangements and their wiring in Buildings A and B are as shown in the figure below. Building A Corridor Staff area Stairs Guest rooms Corridor Guest rooms Corridor Guest rooms Corridor Guest rooms... -
Page 32: Block Diagram
5. Typical System Examples 5.1. Typical System Outline 5.1.3. Block Diagram The system's block diagram is shown below. Note: Guest rooms 1 and 2 represent dual speaker lines of an interleaved speaker system provided for each guest room as fail safe system. Building A VX-2000 VX-2000SF A1... - Page 33 5. Typical System Examples 5.1. Typical System Outline 5.1.3. Block Diagram Continued from the previous page Continued from the previous page Building B VX-2000SF B VP-2064 B-3F Guest room 1 VX-200SZ VP-200VX Sensor B-3F Guest room 2 VX-200SZ VP-200VX B-2F Guest room 1 VX-200SZ VP-200VX B-2F Guest room 2...
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Page 34: Equipment Rack Conceptual Drawing
5. Typical System Examples 5.1. Typical System Outline 5.1.4. Equipment Rack Conceptual Drawing Shown below are conceptual drawings for component racks installed in Buildings A and B. Building A [Rack A-1] [Rack A-2] CR-273 CR-273 PF-013B PF-013B OVERHEAT POWER OVERHEAT POWER VP-2064 VP-2241... -
Page 35: Equipment Interconnection Examples
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.1. VX-2000 Connections to Remote Microphones and Input Source Equipment [RM-200XF Bottom] Cat. 5 STP Cat. 5 STP LINK [RM-200X Rear] DC POWER IN LINK MIC IN Cat. 5 STP Cat. 5 STP PM-660U CD Player AC230 V... -
Page 36: Connections Between Vx-2000 And Vx-2000Sf
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.2. Connections between VX-2000 and VX-2000SF [VX-2000 Rear] AUDIO LINK DATA LINK RJ45 male connector From VX-2000DS' DC POWER OUT Cat. 5 STP Cat. 5 STP [VX-2000SF Rear] AUDIO LINK DATA LINK DC POWER IN From VX-2000DS' DC POWER OUT... -
Page 37: Sf Modules (Vx-200Sp, Vx-200Sz, Vx-200Si, Vx-200So) Connections
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.3. SF Modules (VX-200SP, VX-200SZ, VX-200SI, VX-200SO) Connections [SF Modules Configuration Example] VX-200SI VX-200SZ VX-200SP VX-200SO [VX-2000SF Rear] From VX-2000DS' DC POWER OUT [VX-200SP and VX-200SZ Connection to Power Amplifier and Speakers] RJ45 male connector VX-200SZ Cat. - Page 38 5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.3. SF Modules (VX-200SP, VX-200SZ, VX-200SI, VX-200SO) Connections [VX-200SP Connection to External Attenuator] • 3-wire System Connection VX-200SP End of line LINE MONITOR (NO) ATT CTRL (NC) SP OUT AT-603 etc. • 4-wire System Connection VX-200SP DC Power End of line...
- Page 39 5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.3. SF Modules (VX-200SP, VX-200SZ, VX-200SI, VX-200SO) Connections [VX-200SI and VX-200SO Connection to External Devices] INPUT 1 OUTPUT 1 COM 1 COM 1 VX-200SI VX-200SO INPUT 2 OUTPUT 2 COM 2 COM 2 OUTPUT 16 INPUT 16 COM 16...
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Page 40: Connections Between Vx-2000Sf And Standby Amplifier
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.4. Connections Between VX-2000SF and Standby Amplifier VP-200VX [VP-2241 Rear] From VX-2000DS' DC POWER OUT Cat. 5 STP VX-200SI VX-200SO VX-200SZ VX-200SP [VX-2000SF Rear] From VX-2000DS' DC POWER OUT Be sure to connect between all STANDBY PA BUS connectors as shown above. -
Page 41: Connections Between Vx-2000Sf And Vx-2000Ds
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.5. Connections Between VX-2000SF and VX-2000DS [VX-2000SF Rear] [VX-2000DS No.1 Rear] Cat. 5 STP [VX-2000DS No.2 Rear] Cat. 5 STP RJ45 male connector 5-12... -
Page 42: Connections Between Vx-2000Ds And Vx-2000Ps
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.6. Connections Between VX-2000DS and VX-2000PS VX-200PS Rear VX-200PS Rear VX-200PS Rear – – – – – – PS OUT PS OUT PS OUT AC230 V AC230 V AC230 V 50/60 Hz 50/60 Hz 50/60 Hz VX-2000PF... -
Page 43: Vx-2000 Cable Usage Table
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.7. VX-2000 Cable Usage Table This table shows the cables to be used in the VX-2000 and their connection locations. [Equipment: RM-200XF] Terminal to Connect Cable Type Equipment to be Connected to Terminal Equipment Terminal... - Page 44 5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.7. VX-2000 Cable Usage Table [Equipment: VX-2000SF] Terminal to Connect Cable Type Equipment to be Connected to Terminal Equipment Terminal Equipment Plug Cable Type Plug Equipment Name Receptacle Name Receptacle DS-SF LINK RJ45 RJ45 Cat.
- Page 45 5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.7. VX-2000 Cable Usage Table [Equipment: VX-200SO] Terminal to Connect Cable Type Equipment to be Connected to Terminal Equipment Terminal Equipment Plug Cable Type Plug Equipment Name Receptacle Name Receptacle 16P screwless Unprocessed cable Unprocessed cable CTRL OUT...
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Page 46: Vx-2000Ds Cautions On Cable Connection To The Battery Terminal
5. Typical System Examples 5.2. Equipment Interconnection Examples 5.2.8. VX-2000DS Cautions on Cable Connection to the Battery Terminal Cable end treatment Usable cable diameter: Cross sectional area: 6 – 1/0 AWG 16 – 50 mm To secure the connection between the battery terminal and cable, be sure to use the cable of specified diameter and treat its end shown at right. -
Page 47: Settings
5. Typical System Examples 5.3. Settings 5.3.1. PC Hardware Requirements Use the dedicated, Windows-compatible VX-2000 Setup software to set the equipment to use, broadcast patterns, and Remote Microphone function keys. The VX-2000 setting software is designed to be exclusively used with the VX-2000 System. The Microsoft Windows-based VX-2000 software can be used with most Windows-compatible personal computers. -
Page 48: Offline Settings
5. Typical System Examples 5.3. Settings 5.3.2. Offline Settings The below flowchart shows the setting flow to be performed on a PC screen. VX-2000 Setting Software Activation New File Creation Project Name and Creator Name Entry Setting of VX Name and No. of SF Units Configuration Setting Mode SF Properties Settings... - Page 49 5. Typical System Examples 5.3. Settings 5.3.2. Offline Settings Continued from the previous page Emergency Remote Microphone System Setting Mode Broadcast Priority Settings Broadcasts Emergency Electronic Voice File Broadcasts General-Purpose Broadcasts BGM Broadcasts Initial Volume Settings Equaliser Settings Operation Setting Mode Emergency Broadcast Settings Pattern Creation Control Output Interlock Pattern...
- Page 50 5. Typical System Examples 5.3. Settings 5.3.2. Offline Settings [Configuration Screen] The following screen will be displayed when offline settings are performed for the typical system. Output Zone 5-21...
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Page 51: Installation
5. Typical System Examples 5.4. Installation 5.4.1. Online Settings The below flowchart shows the settings to be performed with a PC and the VX-2000 system connected. Communication Port Settings COM Port Settings Current Time/Date Settings System File Downloading Equipment Configuration Check SF Module Initialisation/Equipment Connection Check Initial Volume Adjustment Equaliser Adjustment... -
Page 52: Connections Between Vx-2000 And Pc
5. Typical System Examples 5.4. Installation 5.4.2. Connections Between VX-2000 and PC To download the set system file to the VX-2000, connect the PC to be used to the VX-2000. [VX-2000 Front section without front panel] Cross cable 5-23... -
Page 53: System File Download
5. Typical System Examples 5.4. Installation 5.4.3. System File Download Download the programmed system file from the PC to the VX-2000. Step 1. Select [Download (PC VX)] from the Communications menu. The following message will be displayed: "All the data under setup is transmitted. Is communication started?" Step 2. -
Page 54: Equipment Configuration Check
5. Typical System Examples 5.4. Installation 5.4.4. Equipment Configuration Check This function confirms whether the system file set with a PC agrees with the actual equipment configuration. Step 1. Select [Configuration Check] from the System menu. The [System Configuration] window will open. Step 2. - Page 55 5. Typical System Examples 5.4. Installation 5.4.4. Equipment Configuration Check After the configuration check is complete, the connected equipment is displayed in the "Unit" column. Data that differ in configuration between the PC settings and actual configuration are displayed in red. Step 3.
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Page 56: Sf Initialisation And Equipment Interconnection Check
5. Typical System Examples 5.4. Installation 5.4.5. SF Initialisation and Equipment interconnection Check Cables running between equipment components can be checked for correct connection. First initialise the Surveillance Frame, then check the equipment interconnections. Step 1. Select [Connection Check] from the System menu. The [Initial Impedance Settings] window will open. - Page 57 5. Typical System Examples 5.4. Installation 5.4.5. SF Initialisation and Equipment interconnection Check Step 4. Click on the [Start] button. Communications with the VX-2000 will start, while the "Receiving operation mode" message flashes. Note: Connections cannot be checked in emergency mode. Continued on next page 5-28...
- Page 58 5. Typical System Examples 5.4. Installation 5.4.5. SF Initialisation and Equipment interconnection Check After the connection check is complete, "OK" will be displayed in the "Result" column if all connections are determined to be correct, and "NG" when a problem has been detected. Step 5.
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Page 59: Introduction Of Other Functions
5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions 5.4.6.1. Reading Logs (1) Loading Logs Operation logs stored inside the VX-2000 can be read into a PC to display. Step 1. Select [Log] from the System menu. The [View Log] window will open. Step 2. - Page 60 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions Step 3. Read the logs. Clicking on the [Receive] button will start communications and display the screen showing the communication status. After the reading is 100% complete, the screen is closed, automatically cutting off communications. The [View Log] window will be opened, and all received logs displayed.
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Page 61: Storing Logs
5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions (2) Storing Logs Logs displayed in the [View Log] window can be stored as files. Step 1. Click on the [Save] button, and the [Log Filename Settings] window will open. Step 2. -
Page 62: Printing Out System File Settings
5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions 5.4.6.2. Printing Out System File Settings (1) Printing Out Step 1. Select [Print] from the File menu. The [Print out] window will open. Step 2. Select the item to be printed in the [Print Information Selection] window. The available printout items are as follows: Item Printout Contents... -
Page 63: Printout Examples
5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions (2) Printout Examples Provided below are printouts of pattern settings for typical system examples. To explain the terms used in the printout figures: The "Output Zone" columns of the following pattern setting figures represent the output zone numbers: [Emergency Broadcast Pattern Settings], [Interrupt Broadcast Pattern Settings], [EV Broadcast Pattern Settings], [Base Pattern Settings], [Volume Pattern Settings]. - Page 64 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Emergency Broadcast Pattern Settings] (1/2) Pattern Name Phase No. Output Zone* Control Output* EMG A-6F Phase 1 16 17 24 25 Phase 2 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 EMG A-5F...
- Page 65 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Emergency Broadcast Pattern Settings] (2/2) Pattern Name Phase No. Output Zone* Control Output* EMG B-3F Phase 1 16 17 18 19 24 25 Phase 2 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 EMG B-2F...
- Page 66 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Interrupt Broadcast Pattern Settings] Input Source Pattern Name Output Zone* Control Output* Slot No. Name Wireless Mic A-Conference Wireless Mic Refer to 5-33, Zone Settings, for the broadcast zones corresponding to each output zone number. Refer to 5-33, Control Output Settings, for the settings corresponding to each control output number.
- Page 67 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [EV Broadcast Pattern Settings] EV Message Pattern Name Output Zone* Control Output* Name Welcome-A Welcome Welcome-B Welcome Checkout-A Checkout Checkout-B Checkout In-house A In-house 1 11 12 16 17 22 23 24 25 In-house B In-house 2...
- Page 68 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Base Pattern Settings] EV Message Pattern Name Output Zone* Control Output* Slot No. Name Day BGM 1 BGM 1 BGM 2 Day BGM 2 BGM 1 BGM 2 Night BGM BGM 1 BGM 2 12 13...
- Page 69 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Volume Pattern Settings] EV Message Pattern Name Output Zone* Slot No. Name BGM 1 BGM 1 BGM 2 BGM 2 A-Stairs / corridor A-Conference room B-Conference room A-Restaurant A-Bar A-Lobby * Refer to 5-33, Zone Settings, for the broadcast zones corresponding to each output zone number.
- Page 70 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions Failure Output Pattern Setting Example • The numbers shown in the "Power Amplifier" column of the Failure Output Pattern Setting figure indicate the power amplifiers used in each output zone. The numbers in the "Speaker" column indicate the speaker used in each output zone.
- Page 71 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (1/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit VX Failure Standby Amplifier Short Circuit Setting Ground Fault Power Amplifier Open Circuit EV Failure Setting...
- Page 72 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (2/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit SF-B Failure Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit RM-1 Failure Standby Amplifier Short Circuit...
- Page 73 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (3/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 11 DS-2 Failure Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 12 DS-3 Failure Standby Amplifier...
- Page 74 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (4/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 16 A-2F Speaker open 9 10 Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 17 A-3F Speaker open...
- Page 75 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (5/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 21 A-Speaker Ground fault Standby Amplifier Short Circuit Ground Fault 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Power Amplifier Open Circuit...
- Page 76 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (6/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 26 A-3F Speaker short Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 27 A-4F Speaker short Standby Amplifier...
- Page 77 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (7/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 31 A-GF Amp failure 13 14 15 Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit...
- Page 78 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (8/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 36 A-5F Amp failure Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 37 A-6F Amp failure Standby Amplifier...
- Page 79 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (9/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 41 B-GF Speaker open Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 42 B-1F Speaker open Standby Amplifier...
- Page 80 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (10/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 46 B-GF Amp failure Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 47 B-1F Amp failure Standby Amplifier...
- Page 81 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (11/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 51 B-GF Speaker short Standby Amplifier Short Circuit Ground Fault Power Amplifier Open Circuit 52 B-1F Speaker short Standby Amplifier...
- Page 82 5. Typical System Examples 5.4. Installation 5.4.6. Introduction of Other Functions [Failure Output Pattern Settings] (12/12) Name Equipment Power Amplifier* Speaker* Power Supply Control Output* Power Amplifier Open Circuit 56 B-STB Amp failure Standby Amplifier Short Circuit Ground Fault Failure detection is set for the power amplifier of each output zone. Refer to 5-33, Zone Settings, for the relationship of each output zone number to its designated broadcast area.
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Page 83: System Operation
5. Typical System Examples 5.5. System Operation 5.5.1. Emergency Mode Operation (EV Single-source Sequence) Here, an example of sequential operation with an EV-200 mounted in the VX-2000 is explained. Sequential Operation Sequential operation consists of Phase 1 and Phase 2. Sequence Phase 1 operates upon emergency system activation. - Page 84 5. Typical System Examples 5.5. System Operation 5.5.1. Emergency Mode Operation (EV Single-source Sequence) Signal added to A-2F and A-4F Step 3. Following this, the sensors installed on A-2F and A-4F detect irregularities and the fire alarm system transmits a control signal to the control input.
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Page 85: Remote Microphone Operation Examples
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples 5.5.2.1. Emergency Mode Activation and Restoration The emergency mode can not only be activated and restored from the connected fire alarm system, but also from any Remote Microphone set for emergency/general-purpose operation. Here, the settings of the Fireman's Microphone installed on GF of Building A are used as an example to explain the flow from emergency mode activation to its restoration. -
Page 86: From Emergency Mode Activation To Restoration
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (1) From Emergency Mode Activation to Restoration Described below are the steps of system operation from emergency mode activation to restoration. Step 1. Activate emergency broadcast mode. Emergency Activation button Press the Emergency Activation button •... - Page 87 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples Step 3. If necessary, press the Talk button to make Talk button announcements from the Fireman's Microphone. Microphone Enable LED • Fireman's Microphone announcements are made to all Microphone Usage zones.
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Page 88: Making A Microphone Restoration Announcement After Returning To General-Purpose Broadcast Mode By Pressing The Emergency Restoration Key
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (2) Making a microphone restoration announcement after returning to general-purpose broadcast mode by pressing the Emergency Restoration key. To use a microphone to make announcements in general-purpose broadcast mode, the broadcast zone needs to be selected. - Page 89 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Micr o phone Operation Examples Notes In the following cases, the RM-200XF can be extended with a RM-210 extension panel, and the desired zone selection functions assigned to the Remote Microphone keys. •...
- Page 90 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples RM-210 (1) Setting Function A-Staff area Zone Building A zone selection Select [General-purpose broadcast mode] A-GF Zone Select • The left-side LEDs are used to A-1F Zone Select monitor zones.
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Page 91: General-Purpose Broadcast
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples 5.5.2.2. General-Purpose Broadcast Basic operations and indications related to the general-purpose broadcast mode are explained here based on the settings of the Remote Microphones installed at the A-GF reception desk and in the A-GF security room. [A-GF Reception Desk Remote Microphones Settings] A set of the RM-200X and 4 RM-210 units is installed at the A-GF reception desk. - Page 92 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples RM-210 (2) Setting Function B-2F Guest rooms Pre-selects individual zones. B-3F Guest rooms None None No function assigned None None Message 1 Welcome Message 2 Checkout RM-210 Recalls individual EV messages. Message 3 In-house 1 Message 4 In-house 2 No BGM...
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Page 93: Making Microphone Announcements
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (1) Making Microphone Announcements Assuming that paging broadcasts are made to both A-public and B-public zones: A-Public Zones key Step 1. Press the A-Public Zones key and B-Public Zones key Lights to pre-select the zones. -
Page 94: Changing The Base Pattern
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (2) Changing the Base Pattern Which zone the sound source equipment set for BGM broadcast will be broadcast to is set in the base pattern. Up to 5 base patterns can be created. Base patterns can be created and assigned to individual Remote Microphone function keys when changing BGM type or broadcast zones according to time or requirements. -
Page 95: Changing Sound Volume
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (3) Changing Sound Volume The sound source input level and zone output level can be changed. [Example 1] Adjusting the BGM Input Level to Compensate for Changes in Music Dynamics. BGM 1 Volume Up key Step 1. - Page 96 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples [Example 2] Adjusting BGM Output Levels to Compensate for Changes in Lobby Congestion Lobby Volume Up key Step 1. If the lobby becomes unclowded and quiet, the BGM output level can be reduced by pressing the Lobby Volume Down key The output level decreases by 3 dB each time the key...
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Page 97: Failure Indication
5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples (4) Failure Indication Here, the settings of the Remote Microphone installed in the A-GF Security Room are used as an example to explain system operation when a failure occurs. [A-GF Security Room Remote Microphones Settings] A set of the RM-200X and 7 RM-210 units is installed in the A-GF Security Room. - Page 98 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples RM-210 (2) Setting Function SF-A1 Failure Indicates individual VX-2000SF unit SF-A2 Failure failure. SF-B Failure RM-1 Failure Indicates individual Remote Microphone RM-2 Failure failure. Fireman's Microphone Failure DS-1 Failure RM-210 Indicates individual VX-2000DS unit DS-2 Failure...
- Page 99 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples RM-210 (5) Setting Function A-Staff area Amplifier Failure A-GF Amplifier Failure A-1F Amplifier Failure A-2F Amplifier Failure A-3F Amplifier Failure Indicates individual power amplifier A-4F Amplifier Failure failure. A-5F Amplifier Failure RM-210 A-6F Amplifier Failure...
- Page 100 5. Typical System Examples 5.5. System Operation 5.5.2. Remote Microphone Operation Examples [Example] Assuming a Shorted Speaker Line on B-3F Has Been Detected: B-3F Speaker Short key Step 1. When a failure is detected, a buzzer sounds, and both Flashes left-side Failure LEDs located next to the B-3F Speaker Short key and Failure Confirmation key...
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Page 101: Examples Of Connections To The Vm-2120 Or Vm-2240
5. Typical System Examples 5.6. Examples of Connections to the VM-2120 or VM-2240 When the VM-2120 or VM-2240 units are installed as local systems in such facilities as conference rooms, the units' functions permit the system operation to switch over to the VX-2000 system for emergency or paging broadcasts. - Page 102 5. Typical System Examples 5.6. Examples of Connections to the VM-2120 or VM-2240 [Example of Connection Between the VX-200SP and VM-2120 (VM-2240)] VX-200SP VX-2000 system Power Amplifier PA LINK PA IN SP OUT LINE MONITOR From VX-2000 or VX-200SO Control Output Local system VM-2120/-2240 CONTROL I/O Pin No.8...
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Page 103: Systems Using The Vx-200Sz Impedance Detection Module
5. Typical System Examples 5.6. Examples of Connections to the VM-2120 or VM-2240 (2) Systems Using the VX-200SZ Impedance Detection Module • Connect the VX-200SZ's external attenuator control signal to the VM-2120's (VM-2240's) Control I/O terminal (Pin No. 8, Broadcast cutoff) as a control signal. The system operation switches over to the VX-2000 system when emergency broadcasts are made or when a paging call is initiated from the VX-2000 system. -
Page 104: Using The Sv-200M Surveillance Board With The Vm-2122 Or Vm-2240
5. Typical System Examples 5.6. Examples of Connections to the VM-2120 or VM-2240 (3) Using the SV-200M Surveillance Board with the VM-2120 or VM-2240 The SV-200M is a dedicated board for the VM unit, and detects failures between the VM unit and speakers. This section explains the system operation when the SV-200M is used in conjunction with the VX-200SP or VX-200SZ. - Page 105 5. Typical System Examples 5.6. Examples of Connections to the VM-2120 or VM-2240 When a speaker line is shorted, broadcasts cannot be made to any zones if the short is detected by the VX- 200SZ. However, if detected by the SV-200M, only the zone linked to the shorted speaker line is disconnected, allowing broadcasts to be made to the remaining zones.
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Page 106: System Examples
6. System Examples 6.1. School 6.1.1. External View of the School School Gymnasium Work shop Football field... -
Page 107: Internal Wiring
6. System Examples 6.1. School 6.1.2. Internal Wiring School 2F Corridor 2F Class rooms Gymnasium PA room Stairs Workshop 1F Corridor 1F Class rooms Fireman's microphone Entrance Teachers' VX-2000 room VX-2000SF VM-2120 Amplifier Football field... -
Page 108: Block Diagram
6. System Examples 6.1. School 6.1.3. Block Diagram • The EV-200 can be set to broadcast chimes, programmed announcements, etc. at regular daily intervals using the software timer. • Output from the local powered mixer used in the gymnasium can be interrupted by broadcasts from the VX- 2000 when an urgent call is made. -
Page 109: Department Store
6. System Examples 6.2. Department Store 6.2.1. External View of the Building... -
Page 110: Internal Wiring
6. System Examples 6.2. Department Store 6.1.2. Internal Wiring Staff area Escalator Escalator Staff area Escalator Escalator Staff area Escalator Escalator Security room Fireman's Microphone Reception VX-2000 Escalator Escalator VX-2000SF Amplifier... -
Page 111: Block Diagram
6. System Examples 6.2. Department Store 6.2.3. Block Diagram • The key factor in this system application is simultaneous broadcast. • BGM sound is broadcast from CD player. • Pre-recorded messages are played back to any zones you had set, when software timer activates the EV-200. VX-2000 VX-2000SF VP-2064... -
Page 112: Emergency Mode Operation (Dual-Origin Ev Broadcasts)
6. System Examples 6.2. Department Store 6.2.4. Emergency Mode Operation (Dual-Origin EV Broadcasts) In the following example, 2 EV-200 units are installed in the VX-2000 to provide dual-origin Emergency broadcasts. [Setting Contents] • An Alert message is recorded in EV-1, and an Evacuation message is recorded in EV-2. •... - Page 113 6. System Examples 6.2. Department Store 6.2.4. Emergency Mode Operation (Dual-Origin EV Broadcasts) Step 4. Since fire been The fire button is pressed to extinguished, a decision is made to transmit a control signal. [EV-1] [EV-2] press the fire button to call all zones for immediate evacuation.
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