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System Design Guide for
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
Y
4.3. Remote Microphone Extension RM-210 ..................................................................... 4-3
4.4. System Manager VX-2000 ......................................................................................... 4-4
4.5. Remote Microphone Input Module VX-200XR ........................................................... 4-5
4.6. Audio Input Module with Control input VX-200XI ....................................................... 4-6
4.7. Voice Announcement Board EV-200 .......................................................................... 4-7
4.8. Surveillance Frame VX-2000SF ................................................................................. 4-8
4.9. Impedance Detection Module VX-200SZ ................................................................... 4-9
4.10. Pilot Tone Detection Module VX-200SP .................................................................. 4-10
4.11. Control Input Module VX-200SI ................................................................................ 4-11
4.12. Control Output Module VX-200SO ........................................................................... 4-12
4.13. Equaliser Card VX-200SE ........................................................................................ 4-13
4.14. Power Amplifier 4 x 60 W VP-2064 ......................................................................... 4-14
4.15. Power Amplifier 2 x 120 W VP-2122 ....................................................................... 4-15
4.16. Power Amplifier 1 x 240 W VP-2241 ....................................................................... 4-16
4.17. Power Amplifier 1 x 420 W VP-2421 ....................................................................... 4-17
4.18. Power Amplifier Input Module VP-200VX ................................................................. 4-18
4.19. Power Supply Unit VX-200PS .................................................................................. 4-19
4.20. Emergency Power Supply VX-2000DS .................................................................... 4-20
4.21. Power Supply Frame VX-2000PF ............................................................................ 4-21
5. Typical System Examples
5.1. Typical System Outline
5.1.1. External View of the Building .............................................................................. 5-1
5.1.2. Internal Wiring ................................................................................................... 5-2
PRELIMINAR
5.2. Equipment Interconnection Examples
5.2.1. VX-2000 Connections to Remote Microphones and Input Source Equipment ... 5-6
5.2.2. Connections between VX-2000 and VX-2000SF ............................................... 5-7
5.2.3. SF Modules (VX-200SP, VX-200SZ, VX-200SI, VX-200SO) Connections ........ 5-8
5.2.4. Connections Between VX-2000SF and Standby Amplifier ............................... 5-11
5.2.5. Connections Between VX-2000SF and VX-2000DS ........................................ 5-12
5.2.6. Connections Between VX-2000DS and VX-2000PS ........................................ 5-13
5.2.7. VX-2000 Cable Usage Table ............................................................................ 5-14
2
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. SF Initialisation and Equipment Interconnection Check ................................... 5-26
5.4.6. Introduction of Other Functions
5.4.6.1. Reading Logs
Y
(1) Loading Logs ................................................................................. 5-29
(2) Storing Logs ................................................................................... 5-31
(3) Printing Logs .................................................................................. 5-31
5.4.6.2. Printing Out System File Settings
(1) Printing Out .................................................................................... 5-32
(2) Printout Examples .......................................................................... 5-33
5.5. System Operation
5.5.1. Emergency Mode Operation (EV Single-source Sequence) ............................ 5-53
5.5.2. Remote Microphone Operation Examples
5.5.2.1. Emergency Mode Activation and Restoration ..................................... 5-55
(1) From Emergency Mode Activation to Restoration ......................... 5-56
(2) Making a microphone restoration announcement after returning to general-purpose broadcast mode by pressing the Emergency
Restoration key. ............................................................................. 5-58
5.5.2.2. General-Purpose Broadcast ................................................................ 5-61
(1) Making Microphone Announcements ............................................. 5-63
(2) Changing the Base Pattern ............................................................ 5-64
(3) Changing Sound Volume ............................................................... 5-65
(4) Failure Indication ............................................................................ 5-67
5.6. Examples of Connections to the VM-2120 or VM-2240
(1) Systems Using the VX-200SP Pilot Tone Detection Module ................................ 5-71
(2) Systems Using the VX-200SZ Impedance Detection Module ............................... 5-73
(3) Using the SV-200M Surveillance Board with the VM-2122 or VM-2240 ............... 5-74 PRELIMINAR
6.1.1. External View of the school ................................................................................ 6-1
6.1.2. Internal Wiring .................................................................................................... 6-2
6.1.3. Block Diagram .................................................................................................... 6-3
6.2. Department Store
6.2.1. External View of the Building .............................................................................. 6-4
6.2.2. Internal Wiring .................................................................................................... 6-5
6.2.3. Block Diagram .................................................................................................... 6-6
6.2.4. Emergency Mode Operation (Dual-Origin EV Broadcasts) ................................ 6-7
3
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. If detected, failure warnings are provided by way of an LED indicator and a buzzer.
Y
PRELIMINAR
1-1
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.
• A total of 8 RM-200X and RM-200XF Remote Microphones can be connected to the VX-2000. Up to 4 RM-
200XF units can be installed.
• RM-210 extension capability permits the number of Remote Microphone function keys to be increased to up to 105 keys per unit.
• The system can be configured for up to 305 function key settings.
Y
Sound Source Devices
• Up to 2 EV-200 units can be connected to the VX-2000.
• The VX-2000 features 4 different chime sound sources.
Standard-Equipment Control Input and Output
The VX-2000 features 16 control inputs and 16 control outputs as standard equipment.
Expansion to Up to 50 Output Zones
The VX-2000SF Surveillance Frame can be expanded to up to 5 units, increasing the number of available output zones to up to 50 zones.
Control Input and Output Modules, and 2 Types of Speaker Output Modules
• The VX-2000SF is designed to accept up to 10 modules. The control input module, control output module, and 2 types of speaker output modules are available.
• Speaker output modules feature failure-detection circuitry. Two failure detection methods are provided: impedance checking and pilot signal monitoring. Such failure modes as speaker line shorts, open circuits and ground faults can be detected.
• With the addition of extra control input modules and control output modules, the number of control inputs and outputs can be expanded to up to a total of 128 terminals within the system. (Sixteen terminals are included as standard equipment in the VX-2000.)
9-Band Graphic Equaliser Card
Provides 9 bands of computer-adjustable graphic equalisation to the system's speaker output module.
PRELIMINAR
A standby amplifier can be installed for each VX-2000SF to automatically provide substitute amplifier output should the main power amplifier fail.
CPU OFF Switch
Enables broadcast from the RM-200XF Fireman's Microphones to all output zones even if the system's main
CPU fails.
2-1
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.
• The function detects and warns of such failure modes as blown fuses or overheating in the VP power amplifier.
• Can detect and indicate failure of the VX-2000DS' charging circuitry, or battery irregularities.
Failure Indication
Y
• The failure indication function can be assigned to the Remote Microphone. When assigned, the LEDs flash detected within the system. and a buzzer is sounded if a failure is detected.
Monitoring Function
The sound output of a selected output zone can be monitored using the Remote Microphone's internal speaker or the VX-2000's monitor output.
Time Schedule Function
• A weekly schedule can be programmed.
• Up to 40 specific day programs can be set for any desired date and time.
• A summertime period can be set by either the system's PC software or the VX-2000's Summertime Setting switch.
Energy Saving Mode
Battery consumption can be reduced by using the VP power amplifier's standby function (since the entire system's power consumption is reduced by putting unnecessary power amplifiers in standby mode).
PC Setting Software
PC software is used to select input and output equipment, or set priorities, broadcast patterns, items to be activated, etc. Various functions can also be freely assigned to the Remote Microphone' s function keys.
PC Software Provides Versatile Auxiliary Operation
• The VX-2000's memory can log up to 2,000 events, which can be read into a PC.
• System block diagrams and individual equipment settings can be printed out using the VX-2000's PC software.
PRELIMINAR
• System configurations and connections can be checked during equipment installation.
• Inspection mode permits inspection of emergency broadcast equipment operations without actually making broadcasts.
2-2
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
Standby Amplifier
RM-200XF + RM-210 x 10
RM-200X + RM-210 x 9
RM-200XF + RM-210 RM-200X + RM-210
RM-200XF + RM-210 RM-200X
RM-200X + RM-210 RM-200XF
VX-200XR
VX-200XR
VX-200XR
VX-200XR
VX-200XR
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SP
VX-200SP
VX-200SP
VX-200SP
VX-200SP
VP-2421
VP-200VX
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
VP-2122
VP-200VX
VP-200VX
VP-2241
VP-200VX
VP-2122
VP-200VX
VP-200VX
VP-2421
VP-200VX
Y
ZONE 1
ZONE 2
ZONE 3
ZONE 4
ZONE 5
ZONE 6
ZONE 7
ZONE 8
ZONE 9
ZONE 10
VX-2000SF No.2
PM-660U
VX-200XI VX-2000SF No.3
MD Player
CD Player x 16
U-01R
U-01R
EV-200 No.1
EV-200 No.2
Control Output x 16
VX-2000SF No.4
VX-2000SF No.5
VX-200SZ
VX-200SZ
VX-200SP
VX-200SP
VX-200SP
VP-2241
VP-200VX
SF-5
Standby Amplifier
VP-2241
VP-200VX
VP-2064
ZONE 41
ZONE 42
ZONE 43
ZONE 44
ZONE 45
VP-2122
VP-200VX
VP-200VX
VP-2241
VP-200VX
ZONE 46
ZONE 47
ZONE 48 x 16 x 16
VX-200SI
VX-200SO
3-1
3. Maximum System Examples
3.2. Maximum System Configuration Table
Component
Input Source Equipment
RM-200XF
RM-200X
Paging Microphone and Music
Sources (MD, CD, etc.)
EV-200
Chime (built-in)
4 units
8 units
8 units
2 units
1 unit
RM-200XF's and RM-200X's Function Key Extension
RM-210 10 units per RM-200XF
9 units per RM-200X
VX-2000
VX-2000
Input Module
1 unit
Maximum No. of Units
8 units in total of both models
18 units in total of all
Input Source Equipment
315 function keys per system
VX-200XR
VX-200XI
900 module
VX-2000SF
VX-2000SF
8 units in total of all Input Modules
Usable 900 modules: M-01F, M-01M, M-01P, M-51F, M-51S, M-61F, M-61S,
U-01F, U-01P, U-01R, U-01S, and U-61S
5 units
SF Module
VX-200SP
VX-200SZ
VX-200SI
VX-200SO
50 units
50 units
7 units
7 units
50 units in total of all SF Modules
(10 units per VX-2000SF)
Optional Equaliser Card (to be installed in VX-200SP and VX-200SZ)
50 units VX-200SE
Control Input
VX-2000 128 inputs in total 16 inputs
(as standard equipment)
112 inputs (7 units) VX-200SI
Control Output
VX-2000
VX-200SO
Power Amplifier
16 outputs
(as standard equipment)
112 outputs (7 units)
128 outputs in total
Note: The number and type of power amplifiers should be determined depending on the required speaker output for each zone.
50 channels (50 zones) VP-2064 (4 ch)
VP-2122 (2 ch)
VP-2241 (1 ch)
VP-2421 (1 ch)
Standby Amplifier
Power Amplifier Input Module
VP-200VX
Power Supply
VX-2000DS
VX-200PS
Battery
5 channels (1 channel per VX-2000SF)
55 units in total of modules installed in Power and Standby Amplifiers
Note: Necessary power capacity should be calculated based on total system specifications.
10 units
30 units
40 units
2 units per VX-2000SF
2 units per VX-2000DS
2 or 4 units per VX-2000DS
3-2
4. Specifications
4.1. Fireman's Microphone RM-200XF
Power Source
Current Consumption
Audio Output
Hand-Held Microphone
Distortion
Frequency Response
Signal-to-Noise Ratio
Internal Monitor Speaker
Volume Control
Number of Function Keys
Key Extension
Number of Connectable Units
Communication System
Connection Cable and Connector
Communication Distance
Finish
Dimensions
Weight
* 0 dB = 1 V
• Accessory
Plug-in screw terminal ................................ 1
24 V DC (Operating range: 16 – 40 V DC)
Under 300 mA (RM-200XF), 1.5 A (with 10 RM-210s connected)
0 dB*, 600
Ω, balanced
Dynamic microphone, Function switch (default: Press-to-talk),
Microphone element fault detection
Under 1%
200 – 15,000 Hz
Over 55 dB
200 mW
Microphone volume control, Monitor speaker volume control
Y
5 (including Hand-held microphone's switch), extendable up to 105 (with 10 RM-210s connected)
10 keys extension per RM-210, EXTENSION connector
4
LONWORKS FTT-10A
Category 5 STP cable, plug-in screw connector
500 m
ABS resin
200 (w) x 215 (h) x 82.5 (d) mm (excluding the coiled cord)
1.2 kg
[Top] [Side] [Bottom]
PRELIMINAR
4-1
4. Specifications
4.2. Remote Microphone RM-200X
Power Source
Current Consumption
Audio Output
Gooseneck Microphone
External Microphone Input
Distortion
Frequency Response
Signal-to-Noise Ratio
Internal Monitor Speaker
Volume Control
Number of Function Keys
Key Extension
Number of Connectable Units
Communication System
Connection Cable and Connector
Communication Distance
Finish
Dimensions
Weight
* 0 dB = 1 V
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
Under 300 mA (RM-200X), 1.5 A (with 10 RM-210s connected)
0 dB*, 600 Ω, balanced, RJ45 connector
Unidirectional electret condenser microphone
–40 dB*, unbalanced, mini jack
Under 1%
100 – 20,000 Hz
Y
Over 60 dB
200 mW
Microphone volume control, Monitor speaker volume control
15, extendable up to 105 (with 9 RM-210s connected)
10 keys extension per RM-210, EXTENSION connector
8 (include RM-200XF)
LONWORKS FTT-10A
Category 5 STP cable, RJ45 connector
500 m
ABS resin, blueish gray (PANTONE 538 or its equivalent)
190 (w) x 76.5 (h) x 215 (d) mm (Gooseneck microphone excluded)
800 g
• Accessory
LINK cable (3 m) ........................................ 1
[Top] [Side] [Rear]
RM-200X
REMOTE MICROPHONE
PRELIMINAR
DC POWER IN
24V
LINK SP MIC
EXTERNAL
MIC IN
EXTENS
ION
4-2
4. Specifications
4.3. Remote Microphone Extension RM-210
Current Consumption
Connection
Number of Function Keys
Finish
Dimensions
Weight
60 mA maximum
(consumed at RM-200XF or RM-200X that powers RM-210)
Connection to RM-200XF or RM-200X by dedicated cable
10
ABS resin, blueish gray (PANTONE 538 or its equivalent)
110 (w) x 76.5 (h) x 215 (d) mm
350 g
• Accessories
Extension cable .......................................... 1
Linkage bracket A ...................................... 2
Linkage bracket B ...................................... 1
Screw for linkage bracket ......................... 12
Y
[Rear]
[Top] [Side]
EXTENSION
PRELIMINAR
RM-210
4-3
4. Specifications
4.4. System Manager VX-2000
Power Source
Current Consumption
Input
Output
Monitor Output
Frequency Response
Signal to Noise Ratio
Distortion
Cross Talk
Control Input
Control Output
Chime Tone
Communication System
Operating Temperature
Finish
Dimensions
Weight
* 0 dB = 1 V
24 V DC (Operating range: 20 – 40 V DC)
Under 600 mA
–20 dB*, 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-51F, M-51S, M-61F, M-61S,
U-01F, U-01P, U-01R, U-01S, U-61S)
0 dB*, electronically balanced, RJ45 connector
0 dB*, electronically balanced, 3P XLR receptacle
20 – 20,000 Hz
Over 60 dB
Under 0.5%
No-voltage make contact, open voltage: 24 V DC, short circuit current: 5 – 10 mA
Y
Under –60 dB (1 kHz, 0 dB*)
16 inputs, RJ45 connector x 2
16 outputs, RJ45 connector x 2
Open collector output, withstand voltage: 30 V DC, control current: Under 20 mA
Built-in chime: 4-tone chime (up) / 4-tone chime (down) / 2-tone chime / Gong
PC (Setting software to be installed): 9P D-sub connector, RS-232C
VX-2000SF: RJ45 connector, LONWORKS RS-485
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
483 (w) x 132.6 (h) x 339 (d) mm
6.0 kg
• Accessories
Rack mounting screw (5 x 12)..................... 4
Fiber washer .............................................. 4
• Optional products
Voice announcement board: EV-200
Isolation transformer: IT-450
[Front]
[Rear]
[Front section without front panel] PRELIMINAR
4-4
4. Specifications
4.5. Remote Microphone Input Module VX-200XR
Power Source
Current Consumption
Connectable Remote Microphone
Input Connector
Output Connector
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000)
Under 10 mA
RM-200X and RM-200XF
RJ45 connector
12P card edge-connector
Panel: Alumite finished aluminum, white
35 (w) x 78 (h) x 88 (d) mm
70 g
VX-2000
• Accessories
Mounting screw .......................................... 2
• Optional product
LONWORKS FTT-10A Repeater
Y
[Front] [Side]
PRELIMINAR
4-5
4. Specifications
4.6. Audio Input Module with Control input VX-200XI
Power Source
Current Consumption
Input Sensitivity
(Rated Output 100 mV)
Low Cut Filter (100 Hz)
High Cut Filter (10 kHz)
Noise Output (20 – 20,000 Hz BPF)
Distortion
Frequency Response
Phantom Power
Control Input
Input Connector
Output Connector
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000)
Under 10 mA
MIC: 0.22 – 5.0 mV (adjustable)
LINE: 2.2 – 50 mV (adjustable)
MIC or LINE selectable by the built-in switch
5 to 15 dB attenuation (adjustable)
7 to 13 dB attenuation (adjustable)
Under 50 µV
Under 0.2%
25 – 20,000 Hz
Over 20 V
No-voltage make contact, open voltage: 24 V DC, short circuit current: 5 – 10 mA
5P screw terminal block
12P card edge-connector
Panel: Alumite finished aluminum, white
35 (w) x 78 (h) x 88 (d) mm
90 g
VX-2000
• Accessories
Mounting screw .......................................... 2
Y
[Front] [Side]
PRELIMINAR
4-6
4. Specifications
4.7. Voice Announcement Board EV-200
Power Source
Current Consumption
Output
Frequency Response
Distortion
Memory Card
Playback Mode
No. of Playback Program
Operating Temperature
Operating Humidity
Dimensions
Weight
24 V DC, 0.1 A
3 W
0 dB* 1
20 – 20,000 Hz (44.1 kHz sampling)
20 – 14,000 Hz (32 kHz sampling)
Under 0.3% (44.1 kHz, recording method: Extremely High)
SanDisk* 2 CompactFlash* 2 card is optionally required.
Number of mountable card: 1
Single source playback
8 programs
0 to +50°C
Less than 90% (must be free from dew condensation)
120 (w) x 18.6 (h) x 121 (d) mm
110 g
* 1 0 dB = 1 V
* 2 Trademark of SanDisk Corporation.
Note: Use the CompactFlash card adapter on the market for recording by the EV-350R.
Y
• Accessories
Mounting screw .......................................... 2
[Top]
PRELIMINAR
[Front]
4-7
4. Specifications
4.8. Surveillance Frame VX-2000SF
Power Source
Current Consumption
Input
Through Output
Number of Module Slot
Frequency Response
Signal to Noise Ratio
Distortion
Cross Talk
Communication System
Standby Amplifier Connector
Operating Temperature
Finish
Dimensions
Weight
24 V DC (operating range: 20 – 40 V DC)
Under 300 mA
4 inputs, 0 dB*, electronically balanced, RJ45 connector
4 outputs, 0 dB*, electronically balanced, RJ45 connector
10, usable modules: VX-200SZ, VX-200SP, VX-200SI, VX-200SO
20 – 20,000 Hz
Over 60 dB
Under 0.5%
Under –60 dB (1 kHz, 0 dB*)
VX-2000, VX-2000SF: RJ45 connector x 2, LONWORKS RS-485
Y
VX-2000DS: RJ45 connector x 2
Input: 2P screw terminal block
Output: RJ45 connector
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
483 (w) x 132.6 (h) x 338 (d) mm
5.8 kg
* 0 dB = 1 V
• Accessories
Plug-in screw terminal ................................ 1
Rack mounting screw (5 x 12) .................... 4
Fiber washer .............................................. 4
• Optional product
Isolation transformer: IT-450
[Front]
[Front section without front panel]
PRELIMINAR
[Rear]
4-8
4. Specifications
4.9. Impedance Detection Module VX-200SZ
Power Source
Current Consumption
Input
Output
Control Input
Control Output
Fault Detection System
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000SF)
Under 150 mA
Speaker line input
Line output, Speaker line output
DC fuse blowout detection input, Overheat detection input
310 g
Standby mode start output, Attenuator control output
Short circuit, Open circuit (impedance detection method), Ground fault
Panel: Alumite finished aluminum, white
30.5 (w) x 116.6 (h) x 291.4 (d) mm
Y
VX-2000SF
• Accessories
Plug-in screw terminal ................................ 1
• Optional product
Equaliser card: VX-200SE
[Top]
[Front] [Side]
PRELIMINAR
4-9
4. Specifications
4.10 Pilot Tone Detection Module VX-200SP
Power Source
Current Consumption
Input
Output
Control Input
Control Output
Fault Detection System
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000SF)
Under 100 mA
Speaker line input
Line output, Speaker line output
DC fuse blowout detection input, Overheat detection input,
Pilot tone detection input
230 g
Standby mode start output, Attenuator control output
Short circuit, Open circuit (pilot tone detection method), Ground fault
Panel: Alumite finished aluminum, white
30.5 (w) x 116.6 (h) x 291.4 (d) mm
Y
VX-2000SF
• Accessories
Plug-in screw terminal ................................ 1
• Optional product
Equaliser card: VX-200SE
[Top]
[Front] [Side]
PRELIMINAR
4-10
4. Specifications
4.11. Control Input Module VX-200SI
Power Source
Current Consumption
Control Input
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000SF)
Under 100 mA
16 inputs, push-in terminal block
No-voltage make contact, open voltage: 24 V DC, short circuit current: under 10 mA
Panel: Alumite finished aluminum, white
30.5 (w) x 116.6 (h) x 291.4 (d) mm
200 g
VX-2000SF
Y
[Top]
[Front] [Side]
PRELIMINAR
4-11
4. Specifications
4.12. Control Output Module VX-200SO
Power Source
Current Consumption
Control Output
Finish
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-2000SF)
Under 150 mA
16 outputs, push-in terminal block
No-voltage make contact, contact capacity: 28 V DC, 1 A
Panel: Alumite finished aluminum, white
30.5 (w) x 116.6 (h) x 291.4 (d) mm
230 g
VX-2000SF
[Top]
Y
[Front] [Side]
PRELIMINAR
4-12
4. Specifications
4.13. Equaliser Card VX-200SE
Power Source
Current Consumption
Equaliser Centre Frequency
Gain Range
Dimensions
Weight
Applicable Model
24 V DC (supplied from VX-200SZ, VX-200SP)
Under 50 mA
80 Hz, 125 Hz, 250 Hz, 500 HZ, 1 kHz, 2 kHz, 4 kHz, 8 kHz, 12 kHz
±12 dB, adjustable in 2 dB steps
110 (w) x 91 (h) x 12 (d) mm
50 g
VX-200SZ, VX-200SP Y
PRELIMINAR
4-13
4. Specifications
4.14. Power Amplifier 4 x 60 W VP-2064
Power Source
Power Consumption (Rated Output)
Rated Output Power
Output Voltage / Impedance
Number of Channels
Input
Number of Module Slots
Frequency Response
Distortion
Signal-to-Noise Ratio
Panel Indicator
Operating Temperature
Finish
Dimensions
Weight
28 V DC (Operating range: 19 – 44 V DC)
400 W in total
60 W x 4
100 V/167
Ω, 70 V/83 Ω, 50 V/41 Ω
4
Specified by input module VP-200VX
4, Usable module: VP-200VX
40 – 16,000 Hz ±3 dB (at 1/3 rated output)
Under 1% (at rated output, 1 kHz)
Over 80 dB
Channel power indicator: 4 channels, dual color LED
Overheat indicator: Red LED
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
Y
483 (w) x 88.4 (h) x 343 (d) mm
11.1 kg
• Accessories
Rack mounting screw (5 x 12) .................... 4
Fiber washer ............................................... 4
[Front]
OVERHEAT POWER
CH1
CH2
CH3
CH4
POWER AMPLIFIER 4 x 60W VP-2064
[Rear]
DC POWER IN
28 V 20 A
C
CH1
H
PA OUT (SP LINE)
CH2 CH3
C H C H C
CH4
H
CH2
4-14
4. Specifications
4.15. Power Amplifier 2 x 120 W VP-2122
Power Source
Power Consumption (Rated Output)
Rated Output Power
Output Voltage / Impedance
Number of Channels
Input
Number of Module Slots
Frequency Response
Distortion
Signal-to-Noise Ratio
Panel Indicator
Operating Temperature
Finish
Dimensions
Weight
28 V DC (Operating range: 19 – 44 V DC)
400 W in total
120 W x 2
100 V/83
Ω, 70 V/41 Ω, 50 V/21 Ω
2
Specified by input module VP-200VX
2, Usable module: VP-200VX
40 – 16,000 Hz ±3 dB (at 1/3 rated output)
Under 1% (at rated output, 1 kHz)
Over 80 dB
Channel power indicator: 2 channels, dual color LED
Overheat indicator: Red LED
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
Y
483 (w) x 88.4 (h) x 343 (d) mm
9.0 kg
• Accessories
Rack mounting screw (5 x 12) .................... 4
Fiber washer .............................................. 4
[Front]
OVERHEAT POWER
CH1
CH2
POWER AMPLIFIER 2 x 120W VP-2122
[Rear]
DC POWER IN
28 V 20 A
PA OUT (SP LINE)
CH1 CH2
C H C H
4-15
4. Specifications
4.16. Power Amplifier 1 x 240 W VP-2241
Power Source
Power Consumption (Rated Output)
Rated Output Power
Output Voltage / Impedance
Number of Channels
Input
Number of Module Slots
Frequency Response
Distortion
Signal-to-Noise Ratio
Panel Indicator
Operating Temperature
Finish
Dimensions
Weight
28 V DC (Operating range: 19 – 44 V DC)
400 W
240 W
100 V/41
Ω, 70 V/21 Ω, 50 V/10 Ω
1
Specified by input module VP-200VX
1, Usable module: VP-200VX
40 – 16,000 Hz ±3 dB (at 1/3 rated output)
Under 1% (at rated output, 1 kHz)
Over 80 dB
Channel power indicator: 1 channels, dual color LED
Overheat indicator: Red LED
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
Y
483 (w) x 88.4 (h) x 343 (d) mm
8.0 kg
• Accessories
Rack mounting screw (5 x 12) .................... 4
Fiber washer .............................................. 4
[Front]
OVERHEAT POWER
POWER AMPLIFIER 1 x 240W VP-2241
[Rear]
DC POWER IN
28 V
PRELIMINAR
PA OUT (SP LINE)
C H
4-16
4. Specifications
4.17. Power Amplifier 1 x 420 W VP-2421
Power Source
Power Consumption (Rated Output)
Rated Output Power
Output Voltage / Impedance
Number of Channels
Input
Number of Module Slots
Frequency Response
Distortion
Signal-to-Noise Ratio
Panel Indicator
Operating Temperature
Finish
Dimensions
Weight
28 V DC (Operating range: 19 – 44 V DC)
700 W
420 W
100 V/24
Ω, 70 V/12 Ω, 50 V/6 Ω
1
Specified by input module VP-200VX
1, Usable module: VP-200VX
40 – 16,000 Hz ±3 dB (at 1/3 rated output)
Under 1% (at rated output, 1 kHz)
Over 80 dB
Channel power indicator: 1 channels, dual color LED
Overheat indicator: Red LED
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
Y
483 (w) x 88.4 (h) x 343 (d) mm
9.2 kg
• Accessories
Rack mounting screw (5 x 12) .................... 4
Fiber washer .............................................. 4
[Front]
OVERHEAT POWER
POWER AMPLIFIER 1 x 420W VP-2421
[Rear]
DC POWER IN
28 V
PRELIMINAR
PA OUT (SP LINE)
C H
4-17
4. Specifications
Power Source
Current Consumption
Input
Monitor Output
Control Input
Control Output
Finish
Dimensions
Weight
Applicable Model
* 0 dB = 1 V
4.18. Power Amplifier Input Module VP-200VX
20 V DC (supplied from VP-2064, VP-2122, VP-2241, or VP-2421)
Under 30 mA
0 dB*, 10 k Ω, electronically balanced, RJ45 connector
0 dB*, 1 k Ω, electronically balanced, RJ45 connector
Standby mode start input, photocoupler isolated, RJ45 connector
DC fuse blowout detection output, Overheat detection output
Photocoupler isolated, RJ45 connector
Panel: Surface treated steel plate
88 (w) x 25.8 (h) x 75 (d) mm
70 g
VP-2064, VP-2122, VP-2241, VP-2421
Y
[Top] [Side]
[Front]
PRELIMINAR
4-18
4. Specifications
4.19. Power Supply Unit VX-200PS
Power Source
Rated Output
Peak Output
Power Consumption
Operating Temperature
Applicable Frame
Finish
Dimensions
Weight
230 V AC, 50/60 Hz
240 W (32 V, 7.5 A) x 2
400 W (28 V, 14.3 A) x 2
600 W
0 to +40°C
VX-2000PF
Surface treated steel plate
135 (w) x 122 (h) x 325 (d) mm
13.3 kg
• Accessories
Fuse T3.15 A L ........................................... 2
[Front] [Rear]
Y
PRELIMINAR
4-19
4. Specifications
4.20. Emergency Power Supply VX-2000DS
Power Source
Power Consumption
Applicable Battery
Charging Method
Charging Current
Charging Output Voltage
Number of DC Inputs
Number of DC Outputs
Control Connector
Battery Connection
Operating Temperature
Finish
Dimensions
Weight
230 V AC, 50/60 Hz
240 W maximum
YUASA NP Series (12 V x 2 or 4)
Trickle charging
5 A maximum
27.3 V ±0.3 V (at 25°C)
Temperature correction coefficient: –40 mV/°C
6
6 (25 A max. each)
RJ45 connector
Type of control signal: Battery check, AC power status, DC power status,
Y
Charging circuit failure, and Battery failure
1 pair of positive and negative terminals
0 to +40°C
Panel: Surface treated steel plate, black (30% glossy), paint
483 (w) x 88.4 (h) x 377 (d) mm
11.0 kg
• Accessories
Rack mounting screw (5 x 20) .................... 4
Fiber washer .............................................. 4
Blade fuse 40 A .......................................... 3
Blade fuse 7.5 A ......................................... 1
Fuse T2.5 A L ............................................. 1
[Front]
MAIN
POWER
BATTERY
POWER
CHARGING BATTERY
CHECK
PUSH ON
EMERGENCY POWER SUPPLY VX-2000DS
[Rear]
PRELIMINAR
24V
EMERGENCY POWER SUPPLY
MODEL VX-2000DS
TOA Corporation
THERMISTOR
( )
BATTERY POWER IN
MAX150A
( )
DC POWER OUT
( )
PS IN
( )
ENGINEERED IN JAPAN, ASSEMBLED IN TAIWAN
230V
50/60Hz 240W
1 2 3 4 5 6
( )
1 2 3 4 5 6
DS – SF
LINK
CAUTION
USABLE BATTERY TYPE
NP65-12
(MADE BY YUASA CORP.)
T2.5A L
250V
4-20
4. Specifications
4.21. Power Supply Frame VX-2000PF
Finish
Dimensions
Weight
Panel: Surface treated steel plate, black (30% glossy), paint
483 (w) x 132.6 (h) x 325 (d) mm
6.3 kg
• Accessories
Rack mounting screw (5 x 12) .................... 4
Fiber washer .............................................. 4 Y
PRELIMINAR
4-21
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. The original public address system was expanded by adding a VX-2000SF to cover Building B.
Y
Building B Building A
PRELIMINAR
5-1
5. Typical System Examples 5.1. Typical System Outline
Speaker arrangements and their wiring in Buildings A and B are as shown in the figure below.
Building A
6F Corridor
Staff area Stairs 6F Guest rooms
5F
5F
4F
Corridor
Corridor
Guest rooms
Y
4F Guest rooms
3F Corridor
3F Guest rooms
2F Corridor
2F Guest rooms
1F Hallway
1F Conference room
Security room
VX-2000
VX-2000SF
Amp.
5.1.2. Internal Wiring
Bar Restaurant
Fireman's
Microphone
GF Lobby
Reception
Entrance
GF Staff area
Building B
3F Corridor
2F
1F Hallway
VM
Amp.
1F Conference room
GF Lobby
Staff area
VX-2000SF
Amp.
5-2
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
A-GF Lobby
A-GF Reception
RM-200XF
RM-200X + RM-210 x 4
A-GF Security room
RM-200X + RM-210 x 7
A-GF Security room Tel Device
A-GF Security room BGM Player 1
A-GF Security room BGM Player 2
A-1F Conference room
Wireless Tuner Pre-Amplifier
VX-2000
VX-200XR
VX-200XR
VX-200XR
VX-200XI
U-01R
U-01R
U-01R
VX-2000SF A1
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
VP-2064
VP-200VX
VP-200VX
VP-200VX
A-6F Guest room 1
Y
A-5F Guest room 1
A-5F Guest room 2
A-4F Guest room 1
A-4F Guest room 2
A-3F Guest room 1
A-3F Guest room 2
A-2F Guest room 1
A-2F Guest room 2
Standby Amplifier
Push to use the
Conference room.
EV-200
Chime
VX-2000SF A2
VX-200SZ
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
VP-200VX
A-1F Hallway
A-GF Lobby
A-GF Restaurant
Sensor Control Input
Fire Alarm
VX-200SZ
VP-2241
VP-200VX
A-1F
Conference room
Parking gate control, etc.
Control Output
VX-200SZ
VX-200SZ
VP-2122
VP-200VX
VP-2122
VP-200VX
A-GF Bar
PRELIMINAR
A-GF, 1 – 5F
Staff area
A-Stairs / corridor
VP-2122
VP-200VX Standby Amplifier
To the next page To the next page
5-3
5. Typical System Examples
5.1.3. Block Diagram
5.1. Typical System Outline
Continued from the previous page Continued from the previous page
Building B
Sensor
VX-2000SF B
VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
Y
B-3F Guest room 2
B-2F Guest room 1
B-2F Guest room 2
B-1F Hallway
B-GF Lobby
VX-200SZ
VX-200SZ
B-GF, 1 – 5F
Staff area
B-Stairs / corridor
VP-2122
VP-200VX
VP-200VX
VP-2241
VP-200VX VX-200SP
VM-2240
B-1F
Conference room
Wireless Tuner
PRELIMINAR
Standby Amplifier
5-4
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]
CR-273
[Rack A-2]
CR-273
OVERHEAT POWER
CH1
CH2
CH3
CH4
60W-4CH POWER AMPLIFIER PANEL VP-2064
OVERHEAT POWER
CH1
CH2
CH3
CH4
60W-4CH POWER AMPLIFIER PANEL VP-2064
MAIN
POWER
BATTERY
POWER
CHARGING BATTERY
CHECK
PUSH ON
POWER SUPPLY CONTROL PANEL DS-2000
14
15
16
17
18
19
7
8
9
10
11
12
13
20
21
22
23
24
25
26
27
4
5
6
1
2
3
PF-013B
VP-2064
VP-2064
PF-013B
VX-2000SF
VX-2000
BGM1
BGM2
VX-2000PF
PF-013B
VX-2000DS
PF-013B
PF-023B
OVERHEAT POWER
CH1
240W-1CH POWER AMPLIFIER PANEL VP-2241
OVERHEAT POWER
CH1
240W-1CH POWER AMPLIFIER PANEL VP-2241
OVERHEAT POWER
CH1
CH2
120W-2CH POWER AMPLIFIER PANEL VP-2122
OVERHEAT POWER
CH1
CH2
120W-2CH POWER AMPLIFIER PANEL VP-2122
OVERHEAT POWER
CH1
CH2
CH3
CH4
60W-4CH POWER AMPLIFIER PANEL VP-2064
OVERHEAT POWER
CH1
CH2
CH3
CH4
60W-4CH POWER AMPLIFIER PANEL VP-2064
MAIN
POWER
BATTERY
POWER
CHARGING BATTERY
CHECK
PUSH ON
POWER SUPPLY CONTROL PANEL DS-2000
14
15
16
17
18
19
7
8
9
10
11
12
13
20
21
22
23
24
25
26
27
4
5
6
1
2
3
VP-2064
PF-013B
VP-2241
VP-2122
PF-013B
VP-2122
VP-2241
Y
VP-2064
PF-013B
VX-2000SF
VX-2000PF
PF-013B
VX-2000DS
PF-013B
PF-023B
Building B
[Rack B]
CR-273
OVERHEAT POWER
CH1
240W-1CH POWER AMPLIFIER PANEL VP-2241
OVERHEAT POWER
CH1
240W-1CH POWER AMPLIFIER PANEL VP-2241
OVERHEAT POWER
CH1
CH2
OVERHEAT POWER
CH1
CH3
CH4
60W-4CH POWER AMPLIFIER PANEL VP-2064
MAIN
POWER
BATTERY
POWER
CHARGING BATTERY
CHECK
PUSH ON
POWER SUPPLY CONTROL PANEL DS-2000
23
24
25
26
27
16
17
18
19
20
21
22
10
11
12
13
7
8
9
14
15
4
5
6
1
2
3
PF-013B
VP-2241
VP-2241
VP-2122
PF-013B
VP-2064
VP-2064
PF-013B
VX-2000SF
PF-023B
VX-2000PF
PF-013B
VX-2000DS
PF-013B
PF-023B
5-5
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
[RM-200X Rear]
DC POWER IN
24V
LINK
SP MIC MIC IN
Cat. 5 STP
LINK
Cat. 5 STP
Y
PM-660U
CD Player
AC230 V
50/60 Hz
Monitor Speaker and Zone selector
Base Pattern change and
Failure Output Receipt switches
Power
Amplifier
Failure Output indicators
PRELIMINAR
[VX-2000 Rear]
MONITOR OUT
RJ45 male connector
RCA plug
XLR type female connector
CTRL OUT CTRL IN
DC POWER IN
RM LINK RM LINK
From VX-2000DS'
DC POWER OUT
U-01R VX-200XI VX-200XR
5-6
5. Typical System Examples 5.2. Equipment Interconnection Examples
5.2.2. Connections between VX-2000 and VX-2000SF
[VX-2000 Rear]
DATA LINK
AUDIO LINK
OUT
RJ45 male connector
DC POWER IN
Cat. 5 STP
Y
From VX-2000DS'
DC POWER OUT
Cat. 5 STP
[VX-2000SF Rear]
AUDIO
LINK OUT
IN
DATA
LINK
DC POWER IN
From VX-2000DS'
DC POWER OUT
Cat. 5 STP
[VX-2000SF Rear]
AUDIO
LINK OUT
IN
DATA
LINK
DC POWER IN
From VX-2000DS'
DC POWER OUT
Next VX-2000SF
Cat. 5 STP
Next VX-2000SF
5-7
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-2000SF Rear]
VX-200SZ VX-200SP
VX-200SI
VX-200SO
DC POWER IN
Y
From VX-2000DS'
DC POWER OUT
[VX-200SP and VX-200SZ Connection to Power Amplifier and Speakers]
RJ45 male connector
VX-200SZ
PA LINK
Cat. 5 STP
SP OUT
PA IN
H
C
H
C
1 n
VP-200VX
From VX-2000DS'
DC POWER OUT
[VP-2122 Rear]
DC POWER IN
28 V 20 A
PA OUT (SP LINK)
C
CH1
H C
CH2
H
CH1
CH2
PA LINK
PA LINK
PRELIMINAR
VX-200SP
PA LINK
Cat. 5 STP
VP-200VX
LINE MONITOR
H
C
SP OUT
PA IN
H
C
H
C
1 n
5-8
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
LINE MONITOR
ATT CTRL
SP OUT
H
C
N1
C
(NO)
N2 (NC)
H
C
End of line
Y
R N SP
AT-603 etc.
• 4-wire System Connection
VX-200SP
DC Power
Supply
(+) (–)
End of line
LINE MONITOR
ATT CTRL
SP OUT
H
C
N1
C
(NO)
N2 (NC)
H
C
(–) (+)
Relay
Control
N SP
[VX-200SZ Connection to External Attenuator]
VX-200SZ
Note: Only the external attenuators of 4-wire system can be used for the VX-200SZ.
PRELIMINAR
Supply
(+) (–)
ATT CTRL
SP OUT
N1
C
(NO)
N2 (NC)
H
C
(–) (+)
Relay
Control
N SP
5-9
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
COM 1
INPUT 2
COM 2
VX-200SI
OUTPUT 1
COM 1
OUTPUT 2
COM 2
VX-200SO
Y
INPUT 16
COM 16
OUTPUT 16
COM 16
PRELIMINAR
5-10
5. Typical System Examples 5.2. Equipment Interconnection Examples
5.2.4. Connections Between VX-2000SF and Standby Amplifier
From VX-2000DS'
DC POWER OUT
[VP-2241 Rear]
DC POWER IN
28 V 25 A
PA OUT (SP LINE)
C H
Cat. 5 STP
VP-200VX
PA LINK
Y
[VX-2000SF Rear]
STANDBY
PA LINK
STANDBY
PA BUS
DC POWER IN
VX-200SZ VX-200SP
VX-200SI
VX-200SO
From VX-2000DS'
DC POWER OUT
Be sure to connect between all STANDBY PA BUS connectors as shown above.
PRELIMINAR
RJ45 male connector
5-11
5. Typical System Examples 5.2. Equipment Interconnection Examples
5.2.5. Connections Between VX-2000SF and VX-2000DS
[VX-2000SF Rear]
1
2
DS-SF
LINK
[VX-2000DS No.1 Rear]
THERMISTOR
( )
BATTERY POWER IN
24V MAX150A
( )
230 V
50/60Hz 240W
DS–SF
LINK
T2.5 A L
250 V
Cat. 5 STP
DC POWER OUT
( )
PS IN
( )
1 2 3 4 5 6
( )
1 2 3 4 5 6
[VX-2000DS No.2 Rear]
THERMISTOR
( )
BATTERY POWER IN
24V MAX150A
( )
230 V
50/60Hz 240W
DS–SF
LINK
T2.5 A L
250 V
DC POWER OUT
( )
PS IN
( )
1 2 3 4 5 6
( )
1 2 3 4 5 6
Cat. 5 STP
PRELIMINAR
RJ45 male connector
Y
5-12
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
–
PS OUT
+
–
+
VX-200PS Rear
–
PS OUT
+
–
+
–
PS OUT
+
–
+
Y
AC230 V
50/60 Hz
AC230 V
50/60 Hz
VX-2000PF
AC230 V
50/60 Hz
To DC (+) inputs of the following units.
VX-2000/-2000SF, VP-2064/-2122/-2241/-2421
[VX-2000DS Rear]
THERMISTOR
230 V
50/60Hz 240W
T2.5 A L
250 V
DS–SF
LINK
( )
BATTERY POWER IN
24V MAX150A
( )
DC POWER OUT
( )
PS IN
( )
1 2 3 4 5 6
( )
1 2 3 4 5 6
AC230 V
50/60 Hz
To VX-2000SF
Cat. 5 STP PRELIMINAR
To DC (–) inputs of the following units.
VX-2000/-2000SF, VP-2064/-2122/-2241/-2421
Lead-acid
Battery
Lead-acid
Battery
Caution
The charging current from VX-2000DS is 5 A maximum.
Applicable Batteries: YUASA NP Series (12 V x 2)
RJ45 male connector
5-13
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
Terminal
Name
Equipment
Receptacle
LINK
Plug-in screw connector
Plug
Cable Type
Cable Type
Unprocessed cable end
Cat. 5 STP RJ45
Plug
[Equipment: RM-200X]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
LINK RJ45
DC IN DC Jack
Plug
Cable Type
Cable Type
RJ45
DC plug
(Outer diameter:
F5.5 mm
Inner diameter:
F2.1 mm length: 9.5 mm)
Cat. 5 STP
–
EXT MIC IN
A3.5 mm-diameter
Mini-jack
A3.5 mm-diameter
Mini-plug
1-core sheilded cable
RJ45
Plug
–
–
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
VX-200XR
VX-200XR
Equipment
RM LINK RJ45
Equipment to be Connected to
Equipment
Y
Receptacle
RM LINK RJ45
Terminal
Name
AC Adapter –
External microphone –
–
–
[Equipment: VX-2000]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
RS-232C
9P D-sub connector (male)
Plug
Cable Type
Cable Type
9P D-sub connector
(female)
Cross cable
CTRL IN RJ45
CTRL OUT RJ45
RJ45
RJ45
RJ45
RJ45
Cat. 5 STP
Cat. 5 STP
Cat. 5 STP
Cat. 5 STP
Plug
9P D-sub connector
(female)
PC
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
RS-232C
9P D-sub connector (male)
Unprocessed cable end
Fire alarm system / other control unit
Unprocessed cable end
Fire alarm system / other control unit
RJ45 VX-2000SF
–
–
–
–
RJ45 VX-2000SF
DATA LINK RJ45
AUDIO LINK
IN
RJ45
DATA LINK RJ45
AUDIO LINK
OUT
RJ45
– Round or Y terminal VX-2000DS
DC POWER
OUT
Screw terminal
DC POWER
IN
2P screw terminal Round or Y terminal
RM LINK
MONITOR
OUT (male)
[Equipment: VX-200XR]
(female)
2-core sheilded cable –
Unprocessed cable
Power amplifier – PRELIMINAR
Equipment
Terminal to Connect
Receptacle
Plug
Cable Type
Cable Type Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
Plug-in screw
Terminal
Name
3P XLR connector 3P XLR connector
RM-200XF LINK
– end connector
RJ45 RJ45 Cat. 5 STP
RJ45 RM-200X LINK RJ45
[Equipment: VX-200XI]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
–
Plug
Cable Type
Cable Type
5P screw terminal
Unprocessed cable end
2-core sheilded cable,
Twisted pair cable
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
Audio input equipment with control output
– –
Plug
–
5-14
5. Typical System Examples 5.2. Equipment Interconnection Examples
5.2.7. VX-2000 Cable Usage Table
[Equipment: VX-2000SF]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
DS-SF LINK
1, 2
RJ45 RJ45
Plug
DATA LINK RJ45 RJ45
Cable Type
Cable Type
Cat. 5 STP
Cat. 5 STP
STANDBY
PA LINK
RJ45
AUDIO LINK
IN
RJ45
AUDIO LINK
OUT
RJ45
RJ45
RJ45
RJ45
Cat. 5 STP
Cat. 5 STP
Cat. 5 STP
STANDBY
PA BUS
2P screw terminal
Unprocessed cable end
22-24AWG
STANDBY
PA BUS
2P VH connector –
DC POWER
IN
2P screw terminal Round or Y terminal
PCB Cable
–
RJ45
RJ45
Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
VX-2000DS DS-SF LINK RJ45
VX-2000
VX-2000SF
RJ45 VP-200VX
RJ45
VX-2000
VX-2000SF
RJ45
–
Standby amplifier
VX-2000SF
Round or Y terminal
Standby amplifier
VP-2064/-2122/
-2241/-2421
VX-200SP
VX-200SZ
Round or Y terminal VX-2000DS
PA LINK
AUDIO LINK
OUT
AUDIO LINK
IN
RJ45
DATA LINK RJ45 Y
RJ45
RJ45
PA OUT
(SP LINE)
2P screw terminal
STANDBY
PA BUS
–
DC POWER
OUT
Screw terminal
[Equipment: VX-200SP]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
PA LINK RJ45
LINE
MONITOR
ATT CTRL
SP OUT
Plug-in screw connector
Plug-in screw connector
Plug-in screw connector
RJ45
Plug
Cable Type
Cable Type
Cat. 5 STP
Unprocessed cable end
22-24AWG
Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
VP-200VX PA LINK RJ45 RJ45
Unprocessed cable end
Speaker termination
Speaker terminal
Push-in terminal block
Unprocessed cable end
3-wire:22-24AWG
4-wire:Twisted pair cable
Unprocessed cable end
External attenuator
Unprocessed cable end
22-24AWG
Unprocessed cable end
Speaker
–
Speaker terminal
Push-in terminal block
–
PA IN
Plug-in screw connector
Unprocessed cable end
22-24AWG Round or Y terminal
VP-2064/-2122/
-2241/-2421
PA OUT
(SP LINE)
2P screw terminal
PA IN
[Equipment: VX-200SZ]
Terminal
Name
PA LINK
ATT CTRL
SP OUT
Terminal to Connect
Equipment
Receptacle
Plug
Cable Type
Cable Type Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
RJ45 connector connector
PRELIMINAR
Plug-in screw end
Unprocessed cable end
4-wire:Twisted pair cable
22-24AWG end
Unprocessed cable end
External attenuator
Speaker
–
Speaker terminal
RJ45
–
Push-in terminal block
Plug-in screw connector
Unprocessed cable end
22-24AWG Round or Y terminal
VP-2064/-2122/
-2241/-2421
PA OUT
(SP LINE)
2P screw terminal
[Equipment: VX-200SI]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
CTRL IN
16P screwless terminal block
Plug
Cable Type
Cable Type
Unprocessed cable end
Twisted pair cable
Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
Unprocessed cable end
External equipment Control output –
5-15
5. Typical System Examples 5.2. Equipment Interconnection Examples
5.2.7. VX-2000 Cable Usage Table
[Equipment: VX-200SO]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
CTRL OUT
16P screwless terminal block
Plug
Cable Type
Cable Type
Unprocessed cable end
Twisted pair cable
Plug
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
Unprocessed cable end
External equipment Control input –
[Equipment: VP-2064/-2122/-2241/-2421]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
Plug
Cable Type
Cable Type
PA OUT
(SP LINE)
Screw terminal Round or Y terminal 22-24AWG
DC POWER
IN
2P screw terminal Round or Y terminal –
Plug
Unprocessed cable end
Equipment
VX-200SZ
VX-200SP
Equipment to be Connected to
Terminal
Name
PA IN
Equipment
Receptacle connector
Y
Plug-in screw
STANDBY
PA BUS
VX-2000SF
2P plug-in screw connector
DC POWER
OUT
Screw terminal Round or Y terminal VX-2000DS
[Equipment: VP-200VX]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
Plug
PA LINK RJ45 RJ45
Cable Type
Cable Type Plug
Cat. 5 STP RJ45
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
VX-200SZ
VX-200SP
PA LINK RJ45
VX-2000SF
STANDBY
PA LINK
RJ45
PS OUT
[Equipment: VX-2000DS]
Terminal to Connect
Terminal
Name
Equipment
Receptacle
AC IN 3P inlet
DS-SF LINK RJ45
BATTERY
POWER IN
Screw terminal
RJ45
Plug
–
Cable Type
Cable Type
Supplied cable
Cat. 5 STP
Unprocessed cable end
6-1/0AWG
Plug
–
Equipment to be Connected to
Equipment
Terminal
Name
Equipment
Receptacle
AC230 V, 50/60 Hz – –
VX-2000SF DS-SF LINK RJ45 RJ45
Unprocessed cable end
Lead-acid battery
Electrode
(+,–)
–
AC IN
VX-2000
DC POWER
OUT
Screw terminal Round or Y terminal – Round or Y terminal
VX-2000SF
VP-2064/-2122/
-2241/-2421
DC POWER
IN
PS IN
PRELIMINAR
[Equipment: VX-200PS]
Round or Y terminal – Round or Y terminal VX-200PS PS OUT
2P screw terminal
Screw terminal
Terminal to Connect Cable Type Equipment to be Connected to
Terminal
Name
Equipment
Receptacle
Terminal
Name
Equipment
Receptacle
Plug Cable Type Plug Equipment
3P inlet – Supplied cable – AC230 V, 50/60 Hz – –
Screw terminal Round or Y terminal – Round or Y terminal VX-2000DS PS IN Screw terminal
5-16
5. Typical System Examples
5.3.1. PC Hardware Requirements
5.3. Settings
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.
Hardware requirements are given below.
OS
CPU Operating Speed
Memory Capacity
Windows 98 Second Edition/ME/2000/XP
233 MHz Pentium II or faster
64 MB RAM
Y
Available Hard Disk Space 200 MB
Communication Port
Display Size
Built-in Media Drive
RS-232C
800 x 600, 256 colors or more
CD-ROM Drive
Pentium is a trademark of Intel Corporation.
Windows is a trademark of Microsoft Corporation.
PRELIMINAR
5-17
5.3. Settings 5. Typical System Examples
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
Y
Configuration Setting Mode SF Properties Settings SF Module Name Settings
Standby Amplifier Usage
SF Module Settings
Control Output Name Settings
VX Properties Settings VX Name Settings
Drive Mode Selection
Selection of No. of Electronic
Voice File Units
Timer Validity Setting
VX Input Module Settings
Remote Microphone Properties
Settings
Broadcast Type Selection PRELIMINAR
Remote Microphone Expansion
Electronic Voice File Message Type Selection
Monitoring Settings Battery Check Interval Settings
Monitoring Interval Settings In
Standby Mode
To the next page
5-18
5.3. Settings 5. Typical System Examples
5.3.2. Offline Settings
Continued from the previous page
System Setting Mode Broadcast Priority Settings
Emergency Remote Microphone
Broadcasts
Emergency Electronic Voice
File Broadcasts
General-Purpose Broadcasts
Y
BGM Broadcasts
Operation Setting Mode
Initial Volume Settings
Equaliser Settings
Emergency Broadcast Settings
Pattern Creation Control Output Interlock Pattern
Interrupt Broadcast Pattern
Electronic Voice File Broadcast
Pattern
Base Pattern
Volume Pattern
Failure Output Pattern Creation
Remote Microphone Key
Activation Setting Mode
Function Assignment PRELIMINAR
Timer Settings Day Program
Weekly Program
Holiday Program
Summer Time Settings
5-19
5.3. Settings 5. Typical System Examples
5.3.2. Offline Settings
[Configuration Screen]
The following screen will be displayed when offline settings are performed for the typical system.
Output Zone
P
R
E
LI
M
IN
A
R
10
Y
11
17
18
26
5-20
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
Operation
Y
PRELIMINAR
5-21
5. Typical System Examples
5.4.2. Connections Between VX-2000 and PC
5.4. Installation
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]
Y
PC
Cross cable
PRELIMINAR
5-22
5. Typical System Examples
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. Click on the [OK] button.
To return to the previous settings, click on the [Cancel] button.
Note: System files cannot be transferred while in the Emergency mode.
5.4. Installation
After the download is 100% complete, communications are automatically cut off.
If exiting partway through a data transmission, click on the [Cancel] button.
Tip
No changes are made to the VX-2000 system file when communications are cancelled partway through the transmission.
PRELIMINARY
5-23
5.4. Installation 5. Typical System Examples
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. Click on the [Start] button.
Note: The configuration check function cannot be used in the emergency mode.
P
R
E
LI
M
IN
A
R
Y
Continued on next page
5-24
5. Typical System Examples
5.4.4. Equipment Configuration Check
5.4. Installation
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.
the VX-2000 or match the actual component configuration to the PC settings.
P
R
E
LI
M
IN
A
R
Y
LI
M
IN
A
Step 3. Should conflicting data be detected, either correct the PC settings and download the new settings to R
E
5-25
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.
Step 2. Click on the [Start] button.
Note: The Surveillance Frame cannot be initialised while in emergency mode.
After the Surveillance Frame initialisation is complete, the "Impedance Initialisation complete" message will be displayed.
PRELIMINARY
Step 3. Click on the [Cancel] button.
The [Initial Impedance Settings] window will close, and the [Connection Check] window will open.
Continued on next page
5-26
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.
P
R
E
LI
M
IN
A
R
Y
Continued on next page
5-27
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.
connection check again.
P
R
E
LI
M
IN
When performing only the initial settings of the Surveillance Frame, this can be accomplished by selecting
[Initial Impedance Settings] from the System menu.
A
R
Y
Tip
Step 5. If "NG" is displayed, check the connections between equipment in question, and perform the
R
E
5-28
5.4. Installation 5. Typical System Examples
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. Set the log to be viewed in the [View Conditions] area.
P
[List All]:
R
E
LI
All stored logs can be viewed.
M
More than one checkbox can be ticked.
IN
[Select View]: Only the desired logs are selected and displayed.
A
R
Tick the "Event, "Monitor," or "Error" checkbox for the data to be viewed.
Y
If "Event" is selected, further select either "General" or "Emergency."
Continued on next page
5-29
5. Typical System Examples
5.4.6. Introduction of Other Functions
5.4. Installation
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.
PRELIMINARY
Clicking the [Update View] button re-enables communications with the VX-2000 to display the most recent logs.
Step 4. Click on the [Close] button to close the [View Log] window.
5-30
5.4. Installation 5. Typical System Examples
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. Select the location to save the file and its filename, then click on the [Save] button again.
(3) Printing Logs
Logs displayed on the [View Log] window can be printed out.
Click on the [Print] button to print.
Y
PRELIMINAR
5-31
5. Typical System Examples
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.
5.4. Installation
Step 2. Select the item to be printed in the [Print Information Selection] window.
The available printout items are as follows:
Item
System Settings
VX Settings
VX Slot Settings
SF Settings
SF Slot Settings
RM Settings
Control Output Name Settings
EV Message Settings
Priority Settings
Initial Source Volume Settings
Initial Output Volume Settings
EQ Settings
Emergency Sequence Settings* 1
Alert Broadcast Pattern Settings* 2
Evacuation Broadcast Pattern Settings* 2
Emergency Broadcast Settings
Emergency Output Settings
Control Output Interlock Pattern Settings
Interrupt Broadcast Pattern Settings
EV Broadcast Pattern Settings
Base Pattern Settings
Volume Pattern Settings
Failure Output Pattern Settings
RM Function Key Setting
Control Input Settings
Day Program Settings
Weekly Program Settings
Holiday Program Settings
Log List
System Configuration
RM Function Key Labels
* 1 Displayed when 1 EV unit is used.
* 2 Displayed when 2 EV units are used.
Printout Contents
General system information
VX properties
Usable input module list
SF properties
Usable SF module list
RM properties list
Control output name list
EV message list
Priority setting list
Initial source volume list.
Initial output volume list
Individual EQ setting list
Emergency sequence settings
Alert broadcast pattern routings
Evacuation broadcast pattern routings
Emergency broadcast pattern list
Emergency control output name lists
Control output interlock pattern list
Interrupt broadcast pattern list
Functions assigned to each RM function key
Patterns to be activated by control input
Time and activation pattern
Day of the week and day programs to be activated
Period and day programs to be activated
VX log file
All equipment used within the system and their connections
RM function key names
Step 3. Press the [Print] button to print.
5-32
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
(2) Printout Examples
Provided below are printouts of pattern settings for typical system examples.
8
9
6
7
4
5
2
3
10
11
12
13
No.
1
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].
The following table shows the relationship of each output zone number to its corresponding broadcast area.
For details, refer to p. 5-20 , Configuration Screen.
Y
[Zone Settings]
Broadcast Zone
A-6F Guest room 1
No.
Broadcast Zone
14 A-1F Conference room
A-6F Guest room 2
A-5F Guest room 1
A-5F Guest room 2
A-4F Guest room 1
A-4F Guest room 2
A-3F Guest room 1
A-3F Guest room 2
A-2F Guest room 1
A-2F Guest room 2
A-1F Hallway
A-GF Lobby
A-GF Restaurant
15 A-GF Bar
16 A-Staff area
17 A-Stairs / corridor
18 B-3F Guest room 1
19 B-3F Guest room 2
20 B-2F Guest room 1
21 B-2F Guest room 2
22 A-1F Hallway
23 A-GF Lobby
24 B-Staff area
25 B-Stairs / corridor
26 B-1F Conference room
The numbers in the "Control Output" column in each table (except the Volume Pattern Setting table) represent the control output terminal numbers that operate in synchronization with each activated pattern.
In a typical system example, terminal names are set as follows:
6
7
8
No.
1
2
3
4
5
[Control Output Settings]
Terminal Name
Emergency A-6F
Emergency A-5F
No.
9
10
Terminal Name
Emergency B-2F
PRELIMINAR
Emergency A-4F
Emergency A-3F
11 Emergency B-GF
12 Evacuation all
Emergency A-2F 13 Emergency busy
Emergency A-1F
Emergency A-GF
Emergency B-3F
14 Alert all
15 Parking gate control
16 VM-2240 switched to VX-2000
5-33
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Emergency Broadcast Pattern Settings] (1/2)
No.
Pattern Name
1 EMG A-6F
Phase No.
Phase 1 1 2
Output Zone* 1
24 25
16 17
Phase 2
2 EMG A-5F Phase 1
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
3 4
24 25
16 17
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
3 EMG A-4F Phase 1 5 6
16 17
24 25
Phase 2
4 EMG A-3F Phase 1
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
24 25
7 8
16 17
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
5 EMG A-2F Phase 1 9 10
24 25
16 17
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
6 EMG A-1F Phase 1
1
1
2
2
3
3
4
4
Control Output* 2
5
5
6
12
12
12
12
12 Y
6 12
11 12 13 14 15 16 17 18 19 20
21 22 23 24 25 26
7 EMG A-GF Phase 1 7
Phase 2
13 14 15 16 17
24 25
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
7 12
* 1 Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
* 2 Refer to p. 5-33 , Control Output Settings, for the settings corresponding to each control output number.
Note: The blank spaces for * 1 and * 2 above indicate "No setting."
5-34
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Emergency Broadcast Pattern Settings] (2/2)
No.
8
Pattern Name
EMG B-3F
Phase No.
Phase 1
Output Zone* 1
24 25
16 17 18 19
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
9 EMG B-2F Phase 1
21 24 25
16 17 20
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
10 EMG B-1F Phase 1
16 17
22 24 25 26
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
11 EMG B-GF Phase 1
23 24 25
16 17
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
12 EMG ALL Phase 1 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
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
Control Output* 2
8
8
9
9
10
10 12
* 1 Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
* 2 Refer to p. 5-33 , Control Output Settings, for the settings corresponding to each control output number.
PRELIMINAR
11
11 12
12
12
12 Y
14
5-35
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Interrupt Broadcast Pattern Settings]
No.
Pattern Name
1 Wireless Mic A-Conference
Input Source
Slot No.
Name
7 Wireless Mic
Output Zone* 1 Control Output* 2
14
* 1 Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
* 2 Refer to p. 5-33 , Control Output Settings, for the settings corresponding to each control output number.
Y
Note: The blank spaces for * 1 and * 2 above indicate "No setting."
12
PRELIMINAR
5-36
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[EV Broadcast Pattern Settings]
No.
1
Pattern Name
Welcome-A
No.
EV Message
Name
5 Welcome
Output Zone* 1 Control Output* 2
12
2 Welcome-B
3 Checkout-A
5 Welcome
6 Checkout
12
23
4 Checkout-B 6 Checkout
23
5 In-house A 7 In-house 1
11 12
22 23 24 25
16 17
6 In-house B 7 In-house 2
11 12
22 23 24 25
16 17
* 1 Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
* 2 Refer to p. 5-33 , Control Output Settings, for the settings corresponding to each control output number.
Note: The blank spaces for * 1 and * 2 above indicate "No setting."
Y
PRELIMINAR
5-37
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Base Pattern Settings]
No.
1
Pattern Name
Day BGM 1
EV Message
Slot No.
Name
5 BGM 1
2 Day BGM 2
6 BGM 2
5 BGM 1
3
4
5
Night BGM
Pattern A
Pattern B
6 BGM 2
5 BGM 1
6 BGM 2
5 BGM 1
6 BGM 2
5 BGM 1
Output Zone*
12
23 25
17
15
12
23 25
17
12 13 15 17
23 25
11 12 13 14 15 17
22 23 25
1 Control Output* 2
6 BGM 2
11 12 13 15 17
22 23 25 26
* 1 Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
* 2 Refer to p. 5-33 , Control Output Settings, for the settings corresponding to each control output number.
PRELIMINAR
Y
5-38
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Volume Pattern Settings]
No.
1
Pattern Name
BGM 1
EV Message
Slot No.
Name
5 BGM 1
Output Zone*
2 BGM 2
3 A-Stairs / corridor
6 BGM 2
17
4 A-Conference room
14
5 B-Conference room
26
6 A-Restaurant
13
7 A-Bar
15
8 A-Lobby
12
* Refer to p. 5-33 , Zone Settings, for the broadcast zones corresponding to each output zone number.
Note: The blank spaces for * above indicate "No setting."
Y
PRELIMINAR
5-39
5.4. Installation 5. Typical System Examples
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. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
control output terminal numbers that operate in synchronization with each activated pattern. Refer to p. 5-33 ,
Control Output Settings, for the relationship of each control output number to its designated broadcast area.
• The numbers in the "Control Output" column of the Failure Output Pattern Setting figure represent the Y
Failure detection is set for individual
Remote Microphones.
1: Fire
Failure detection is set for individual VX-2000DS
Power Supply Units.
1: VX-2000DS mounted in Rack A-1.
2: Reception
3: Security
Blank: No setting
2: VX-2000DS mounted in Rack A-2.
3: VX-2000DS mounted in Rack B.
Blank: No setting
Refer to p. 5-20 , Configuration Screen, for equipment designations.
Refer to p. 5-5 , Equipment Rack Conceptual
Drawing, for equipment designations.
[Failure Output Pattern Settings]
No.
Name
1 Failure Example
Equipment
RM
1 2 3
Power Amplifier* 1
Power Amplifier
11 12 13 14 15 16 17 18 19 20
Speaker*
Open Circuit
2
11 12 13 14 15 16 17 18 19 20
EV
VX
Setting
Standby Amplifier
1 2 3
Short Circuit
1 2 3 4 5 6 7 8 9 10
Power Supply Control Output* 3
DS
1 2
3
3
SF
1 2 3
Ground Fault
21 22 23 24 25 26
Setting: Failure detection ON
Blank: Failure detection OFF
Failure detection is set for individual standby amplifiers.
PRELIMINAR
3: SF 3-Standby Amp
Blank: No setting
Refer to p. 5-20 , Configuration Screen, for equipment designations.
Failure detection is set for individual VX-2000SF units.
1: VX-2000SF A-1
2: VX-2000SF A-2
3: VX-2000SF B
Blank: No setting
Refer to p. 5-20 , Configuration Screen, for equipment designations.
5-40
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (1/12)
No.
1 VX Failure
Name Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
Setting
SF
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
2 EV Failure
Power Supply Control Output* 3
DS
DS RM Power Amplifier
EV
Setting
VX
Standby Amplifier
SF
Open Circuit
Short Circuit
Ground Fault
3 Failure Confirmation
RM
1 2 3
EV
Setting
VX
Setting
SF
1 2 3
RM
Power Amplifier
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
Standby Amplifier
1 2 3
Power Amplifier
Open Circuit
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
Short Circuit
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
Ground Fault
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
Open Circuit
DS
1 2
3
DS
4 SF-A1 Failure
EV
Standby Amplifier Short Circuit
VX
SF
1
Ground Fault
5 SF-A2 Failure
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF
2
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-41
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (2/12)
No.
Name
6 SF-B Failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
2
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
7 RM-1 Failure
8 RM-2 Failure
RM
1
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
RM
2
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
Power Supply Control Output* 3
DS
DS
DS
9 RM-3 Failure
Power Amplifier Open Circuit DS RM
3
EV
Standby Amplifier Short Circuit
VX
SF
Ground Fault
10 DS-1 Failure
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
1
SF
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-42
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (3/12)
No.
Name
11 DS-2 Failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
12 DS-3 Failure
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
13 A-Staff area Speaker open
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
16
Short Circuit
Ground Fault
DS
3
DS
Power Supply Control Output* 3
DS
2
Y
14 A-GF Speaker open
RM
EV
Power Amplifier DS
Standby Amplifier
Open Circuit
13 14 15
Short Circuit
VX
SF
Ground Fault
15
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
11 12
Short Circuit
SF
Ground Fault
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-43
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (4/12)
No.
Name
16 A-2F Speaker open
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
17 A-3F Speaker open
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Speaker* 2
Open Circuit
9 10
Power Supply Control Output* 3
DS
Short Circuit
Ground Fault
Y
Open Circuit
7 8
Short Circuit
DS
Ground Fault
DS
18 A-4F Speaker open
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
5 6
Short Circuit
Ground Fault
19 A-5F Speaker open
RM Power Amplifier DS Open Circuit
3 4
EV
Standby Amplifier Short Circuit
VX
SF
Ground Fault
20
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
1 2
Short Circuit
SF
Ground Fault
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-44
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (5/12)
No.
Name
21 A-Speaker Ground fault
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
Short Circuit
22 A-Staff area Speaker short
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Ground Fault
1 2 3 4 5 6 7 8 9 10
11 12 13 14 15 16 17
Open Circuit DS
Short Circuit
16 17
Ground Fault
Power Supply Control Output* 3
DS
Y
DS
23 A-GF Speaker short
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
13 14 15
Ground Fault
RM Power Amplifier Open Circuit DS
24 A-1F Speaker short
EV
Standby Amplifier Short Circuit
VX
11 12
SF
Ground Fault
25
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
9 10
3
SF
Ground Fault
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-45
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (6/12)
No.
Name
26 A-3F Speaker short
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
Short Circuit
7 8
Ground Fault
Power Supply Control Output* 3
DS
Y
27 A-4F Speaker short
RM
EV
VX
SF
Power Amplifier Open Circuit DS
Standby Amplifier Short Circuit
5 6
Ground Fault
DS
28 A-5F Speaker short
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
3 4
Ground Fault
RM Power Amplifier Open Circuit DS
29 A-6F Speaker short
EV
VX
Standby Amplifier Short Circuit
1 2
SF
Ground Fault
30
PRELIMINAR
16
DS
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF
Ground Fault
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-46
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (7/12)
No.
Name
31 A-GF Amp failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
13 14 15
VX
Standby Amplifier
SF
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
32 A-1F Amp failure
33 A-2F Amp failure
RM
EV
VX
SF
Power Amplifier
11 12
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
RM
EV
VX
SF
Power Amplifier
9 10
Open Circuit
Standby Amplifier Short Circuit
Ground Fault
Power Supply Control Output* 3
DS
DS
DS
34 A-3F Amp failure
RM Open Circuit DS Power Amplifier
7 8
EV
Standby Amplifier Short Circuit
VX
SF
Ground Fault
35 A-4F Amp failure
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-47
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (8/12)
No.
Name
36 A-5F Amp failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
3 4
EV
VX
Standby Amplifier
SF
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
37 A-6F Amp failure
38 A-STB Amp1 failure
RM
EV
VX
SF
Power Amplifier
1 2
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
1
Open Circuit
Short Circuit
Ground Fault
Power Supply Control Output* 3
DS
DS
DS
RM Power Amplifier Open Circuit DS
39 A-STB Amp2 failure
EV
VX
Short Circuit Standby Amplifier
2
SF
Ground Fault
40
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
24
Short Circuit
SF
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-48
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (9/12)
No.
Name
41 B-GF Speaker open
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
23
Short Circuit
Ground Fault
42 B-1F Speaker open
43 B-2F Speaker open
Power Supply Control Output* 3
DS
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
22
Short Circuit
26
Ground Fault
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
21
Short Circuit
Ground Fault
DS
20
DS
Y
RM Power Amplifier Open Circuit DS
44 B-3F Speaker open
18 19
EV
Standby Amplifier Short Circuit
VX
SF
Ground Fault
45
PRELIMINAR
24
DS
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF
Ground Fault
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-49
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (10/12)
No.
Name
46 B-GF Amp failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
23
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
Short Circuit
Ground Fault
47 B-1F Amp failure
48 B-2F Amp failure
RM
EV
VX
SF
Power Amplifier
22 26
Standby Amplifier
Open Circuit
Short Circuit
Ground Fault
RM
EV
VX
SF
Power Amplifier Open Circuit
21
Standby Amplifier
20
Short Circuit
Ground Fault
Power Supply Control Output* 3
DS
DS
DS
49 B-3F Amp failure
RM
EV
Open Circuit DS Power Amplifier
Standby Amplifier
18 19
Short Circuit
VX
SF
Ground Fault
50
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF 24
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-50
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (11/12)
No.
Name
51 B-GF Speaker short
Equipment
RM
Power Amplifier* 1
Power Amplifier
EV
Standby Amplifier
VX
SF
Speaker* 2
Open Circuit
Short Circuit
23
Ground Fault
52 B-1F Speaker short
53 B-2F Speaker short
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
22
Ground Fault
RM
EV
VX
SF
Power Amplifier
Standby Amplifier
Open Circuit
Short Circuit
21
Ground Fault
20
Power Supply Control Output* 3
DS
DS
DS
Y
RM Power Amplifier Open Circuit DS
54 B-3F Speaker short
EV
Standby Amplifier Short Circuit
VX
18 19
SF
Ground Fault
55
PRELIMINAR
EV
VX
Standby Amplifier
Open Circuit
Short Circuit
SF
Ground Fault
18 19 20
21 22 23 24 25 26
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
5-51
5.4. Installation 5. Typical System Examples
5.4.6. Introduction of Other Functions
[Failure Output Pattern Settings] (12/12)
No.
Name
56 B-STB Amp failure
Equipment
RM
Power Amplifier* 1
Power Amplifier
Speaker* 2
Open Circuit
Power Supply Control Output* 3
DS
EV
Standby Amplifier Short Circuit
VX
SF
3
Ground Fault
Y
* 1 Failure detection is set for the power amplifier of each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 2 Failure detection is set for the speakers in each output zone. Refer to p. 5-33 , Zone Settings, for the relationship of each output zone number to its designated broadcast area.
* 3 Refer to p. 5-33 , Control Output Settings, for the relationship of each control output number to its designated broadcast area.
Note: Blank spaces for *1, *2 and *3 above indicate 'No setting.'
PRELIMINAR
5-52
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. When the set time interval elapses, the broadcast is automatically switched to Phase 2.
Setting Contents
Both the broadcast messages and output zones are set for Phase 1 and Phase 2.
Assuming that these phases are set as follows:
Phase 1: The alert message is continuously broadcast for 5 minutes to each floor of each building.
Y
Phase 2: The evacuation message is continuously broadcast to the entire zone.
Alert and Evacuation Message Examples.
Alert Message: The fire alarm system has been engaged. We are now checking the cause.
Please wait for further information.
Evacuation Message: There is a fire. Please evacuate immediately.
Step 1. Background music (BGM) is broadcast to A-GF (Building A ground floor) and B-GF (Building
B ground floor) when the system is in general-purpose broadcast mode.
BGM
Building B
3F
2F
1F
GF BGM
Building A
6F
5F
4F
3F
2F
1F
GF
General-purpose broadcast mode
Emergency activation signal
6F
Step 2. The sensor installed on A-3F
PRELIMINAR signal to the control input.
The emergency mode is activated and BGM stops, allowing the alert
Alert
5F
4F
3F
Emergency sequence
Phase 1
3F message to be played through to
A-3F.
2F 2F 5 minutes
1F 1F
GF GF
Building B Building A
5-53
5. Typical System Examples 5.5. System Operation
5.5.1. Emergency Mode Operation (EV Single-source Sequence)
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. Broadcast zones are added, and the alert message is also broadcast to A-
2F and A-4F, as well.
Signal added to A-2F and A-4F
Building B
3F
2F
1F
GF
Alert
Alert
Alert
Building A
6F
5F
4F
3F
2F
1F
GF sequence
Phase 1
Emergency
Y
Emergency sequence
Phase 2
Step 4. After the set 5-minute time interval elapses, the message is automatically switched from
Phase 1 to Phase 2. Broadcast zones change to the "entire zone" and the evacuation message is broadcast to the entire area. The evacuation announcement continues until the Remote
Microphone's restoration key is pressed or a restoration signal is transmitted from the connected fire alarm system.
Evacuation 3F
Evacuation 2F
Evacuation 1F
Evacuation GF
Building B
Evacuation 6F
Evacuation 5F
Evacuation 4F
Evacuation 3F
Evacuation 2F
Evacuation 1F
Evacuation GF
Building A
Continuous
Emergency restoration signal
PRELIMINAR restoration control signal to the control input.
The emergency mode is
6F
5F
4F
General-purpose broadcast restored.
terminated and the broadcast reverts to general-purpose broadcast mode, restoring BGM output.
3F
2F
1F
3F
2F
1F
BGM GF BGM GF
Building B Building A
5-54
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.
[Setting Contents of Fireman's Microphone on GF of Building A]
Y
5
Fireman's Microphone
RM-200XF 1
2
3
4
4
5
2
3
Key
1
Setting Function
Activates emergency mode and recalls emergency sequence patterns.
Emergency Activation
[Pattern setting contents]
Evacuation EV
Phase 1: Alert EV message; all zones; 5 minutes
Phase 2: Evacuation EV message; all zones; continuous
PRELIMINAR
Broadcast is restored from emergency to normal (general-purpose) broadcast mode after Restoration EV message announcement completion.
Emergency Restoration
(Restoration EV message)
Selects all zones.
Makes microphone announcements.
All-Zone Call
Press-to-Talk
5-55
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.
Press the Emergency Activation button 1 .
• Emergency mode is activated and the Emergency
Activation button lights red.
• The pre-configured emergency sequence pattern is recalled, and the Alert EV Message is broadcast to all zones.
• The Zone Monitor LED of the All-Zone Call key 4 indicates the type of EV message currently being broadcast.
It flashes red to indicate that an alert message is currently being broadcast.
• Because the alert message is set for broadcast to all zones, the Select LED of the All-Zone Call key 4 lights green.
Emergency Activation button 1
Y
All-Zone Call key 4
Flashes Lights
Select LED
Zone Monitor LED
Lights
Evacuation EV key 2
Step 2. Press the Evacuation EV key 2 to broadcast the
Evacuation EV message, if necessary. The Evacuation EV message will be broadcast to all zones, and the EV
Broadcast In-Progress LED lights green.
EV Broadcast
In-Progress LED
EV Enable LED
4
Lights
All-Zone Call key
The Zone Monitor LED of the All-Zone Call key indicates the type of EV message currently being broadcast.
PRELIMINAR
Zone Monitor LED
4
The Emergency Sequence function automatically switches the current message to the Evacuation EV message after a 5-minute interval if nothing is done.
5-56
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone Operation Examples
Step 3. If necessary, press the Talk button 5 announcements from the Fireman's Microphone.
to make
Talk button 5
• Fireman's Microphone announcements are made to all zones.
• Because Fireman's Microphone announcements are given the highest priority, evacuation guidance messages can be broadcast from the Fireman's
Microphone even during EV message broadcast.
• Because the Alert EV Message is being broadcast, the left-side Microphone Enable LED flashes green, indicating that a lower-priority broadcast than the microphone announcement is also being made.
• The right-side LED indicates the microphone's usage status, and lights green when the Talk button is pressed.
Microphone Enable LED
Microphone Usage
Status LED
Flashes Lights
Y
To all zones
All-Zone Call key 4
Lights
• The Zone Monitor LED of the All-Zone Call key 4 lights green to indicate that a microphone announcement is being made.
Tip
When a Fireman's Microphone announcement interrupts an EV message broadcast, the broadcast mode that follows Fireman's Microphone announcement completion can be set to either "Continue" the EV message broadcast or "Silent" broadcast termination. This setting can be made by way of the connected PC.
Zone Monitor LED
Step 4. Restore the emergency broadcast mode.
Press the Emergency Restoration key 3 .
Emergency Restoration key
After the Restoration EV message has been broadcast to broadcast mode.
the entire area, the system is restored to general-purpose PRELIMINAR
The Emergency Activation button light extinguishes to indicate that the system is in general-purpose broadcast mode.
3
5-57
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. In this example, the key assigned for zone selection is the All-Zone Call key 4 .
Step 1. Press the All-Zone Call key 4 .
All zones will be pre-selected, and the Select LED of the
All-Zone Call key 4 will light green.
Lights
Select LED
All-Zone Call key 4
Y
Talk button 5
Microphone Usage
Status LED
Step 2. Press the Talk button 5 to make announcements.
The right-side Microphone Usage Status LED lights green.
Lights
To all zones
PRELIMINAR
5-58
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone 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.
• To manually select broadcast zones to which to broadcast Emergency EV messages in emergency mode.
• To monitor broadcasts being made to individual zones.
• To select zones to which to make broadcasts in general-purpose broadcast mode.
[Setting Example]
Remote Microphone
RM-200XF
Remote Microphone Extension
RM-210
(1) (2)
Y
RM-210 RM-210
Their function key settings are as follows:
RM-200XF
1
2
3
Key
1
2
3
4
5
Setting
Emergency Activation
Emergency Restoration
(Restoration EV message)
All-Zone Call
Press-to-Talk
Function
Activates emergency mode and recalls emergency sequence patterns.
[Pattern setting contents]
Phase 1: Alert EV message; all zones; 5 minutes
Phase 2: Evacuation EV message; all zones; continuous
Recalls and broadcasts evacuation
EV message.
Broadcast is restored from emergency to normal (general-purpose) broadcast mode after Restoration EV message announcement completion.
Selects all zones.
Makes microphone announcements.
5-59
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone Operation Examples
RM-210 (1)
Function
Building A zone selection
RM-210
6
7
8
10
9
11
12
13
14
15
11
12
13
7
8
9
10
Key
6
Setting
A-Staff area Zone
Select
A-GF Zone Select
A-1F Zone Select
A-2F Zone Select
A-3F Zone Select
A-4F Zone Select
A-5F Zone Select
A-6F Zone Select
[General-purpose broadcast mode]
• The left-side LEDs are used to monitor zones.
BGM
Y
· Green: Remote Microphone in use
· Flashing Green: Other Remote
Microphone in use.
• The right-side LEDs light green during zone pre-selection.
RM-210 (2)
16
18
17
19
[Emergency Broadcast Mode]
• The left-side LEDs indicate the type of EV message.
· OFF: No broadcast output
· Green: Microphone announcement
· Red: Evacuation message broadcast
· Flashing Red: Alert message broadcast
• The right-side LEDs light green during zone pre-selection.
20
21
14 None
22
15 None
No function assigned.
23
24
25
16
RM-210
17
18
B-Staff area Zone
Select
B-GF Zone Select
B-1F Zone Select
B-2F Zone Select
Building B zone selection
LED indicator contents are the same as those for Building A zone selection.
19
B-3F Zone Select 20
21
22
23
None
PRELIMINAR
25
None
Alert Message
Clear
No function assigned.
Emergency EV message call
Cancels all zone selections.
5-60
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.
Remote Microphone
RM-200X
Remote Microphone Extension RM-210
(1) (2) (3) (4)
Y
RM-210 RM-210 RM-210 RM-210
RM-200X
REMOTE MICROPHONE
Their function key settings are as follows:
RM-200X
RM-200X
REMOTE MICROPHONE
1
10
12
6
8
14
2
7
9
11
13
15
Key
1
6
7
4
5
2
3
8
9
Setting
None
None
Clear
All-Zone Call
Talk with 2 Tone Chime
A-Staff area
A-Stairs / corridor
A-GF Restaurant
A-GF Bar
Function
No function assigned
No function assigned
Clears the pre-selection.
Pre-selects all zones.
Makes microphone announcements.
Pre-selects individual zones.
4 3 5
10
11
RM-210 (1)
PRELIMINAR
16
18
17
12
13
14
15
A-1F Conference room
None
A-Public zones
B-Public zones
A-2F Guest rooms
A-3F Guest rooms
A-4F Guest rooms
No function assigned
Pre-selects A-public zones.
Pre-selects B-public zones.
19
16
17
18
20
19 A-5F Guest rooms
21
22
20 A-6F Guest rooms Pre-selects individual zones.
23 21 B-Staff area
24
25
22 B-Stairs / corridor
B-GF Lobby
RM-210
23
B-1F Hallway 24
B-1F Conference room 25
A-GF Lobby
A-1F Hallway
5-61
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone Operation Examples
RM-210 (2)
RM-210 (3)
RM-210 (4)
RM-210
RM-210
RM-210
40
42
44
36
38
41
43
45
37
39
26
32
34
28
30
31
33
27
29
35
50
52
54
51
53
55
54
55
52
53
Key
26
41
42
43
44
39
40
37
38
35
36
33
34
31
32
29
30
27
28
45
46
47
48
49
50
51
Setting
B-2F Guest rooms
B-3F Guest rooms
None
None
None
None
Message 1 Welcome
Message 2 Checkout
Message 3 In-house 1
Message 4 In-house 2
No BGM
BGM Pattern 1
BGM Pattern 2
Night BGM
BGM 1 Volume Up
BGM 1 Volume Down
BGM 2 Volume Up
BGM 2 Volume Down
Stairs / corridor
Volume Up
Stairs / corridor
Volume Down
A-Conference room
Volume Up
A-Conference room
Volume Down
B-Conference room
Volume Up
B-Conference room
Volume Down
Restaurant Volume
Up
Restaurant Volume
Down
Bar Volume Up
Bar Volume Down
Lobby Volume Up
Lobby Volume Down
Function
Pre-selects individual zones.
No function assigned
Recalls individual EV messages.
Y
Stops BGM broadcast.
Recalls individual base patterns.
Increases BGM-1 input level.
Decreases BGM-1 input level.
Increases BGM-2 input level.
Decreases BGM-2 input level.
Increases stair and corridor zone output levels.
Decreases stair and corridor zone output levels.
Increases A-conference room zone output level.
Decreases A-conference room zone output level.
Increases B-conference room zone output level.
Decreases B-conference room zone output level.
Increases restaurant zone output level.
Decreases restaurant zone output level.
Increases bar zone output level.
Decreases bar zone output level.
Increases lobby zone output level.
Decreases lobby zone output level.
5-62
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 14
Step 1. Press the A-Public Zones key to pre-select the zones.
14 and B-Public Zones key 15
The zones are pre-selected and the right-side LEDs light green.
Tip
The zone broadcast status can be monitored by means of the
2 LEDs located next to the Zone Selection key.
• The left-side LED is used to monitor zones.
· OFF: The zone is not used or is broadcasting BGM.
· Green: The Remote Microphone is in use.
· Flashing Green: Other connected equipment (Remote
Microphone, EV unit, chime, etc.) is currently broadcasting.
• The right-side pre-selection LED lights green during preselection.
Lights
Lights
Pre-Selection LED
Zone Monitor LED
B-Public Zones key
Y
15
Pre-Selection LED
Zone Monitor LED
Flashes
Talk key 5
Step 2. Make announcement while holding down the Talk key 5 .
Since a 2-tone chime function is provided, a chime tone sounds as soon as the Talk key is pressed.
While sounding, the chime tone is heard from the monitor speaker, and the right-side LED flashes green.
Make the announcement after the LED has switched from flashing to steady on. (The Talk key is assumed to have been set to be a press-to-talk type.)
Chime
Tip
A-Public Zones and
B-Public Zones
Two different modes can be set for the Talk key: PTT and
Lock modes. Settings can be performed using PC software.
• PTT: Microphone broadcasts remain turned on as long as the key is pressed.
• Lock: Pressing the key turns on microphone announcements, and pressing it again turns them off.
Lights
Tip programmed timer in case the user forgets to turn off the microphone.
The 2 LEDs located next to the Talk key indicate the following.
• The left-side LED indicates whether microphone announcements
Hold down the Talk key.
It is possible to limit the announcement time with a PRELIMINAR
A-Public Zones and
B-Public Zones can be made to the pre-selected zone.
· OFF: The zone is free and microphone announcement is possible.
· Flashing Green: Microphone announcements are possible because the priority of the equipment used to make the announcement is higher than that of the equipment currently broadcasting.
· Flashing Orange: Microphone announcements are impossible because the priority of equipment used to make the announcement is lower than that of the equipment currently broadcasting.
• The right-side LED indicates microphone usage status.
· OFF: The microphone is not in use.
· Green: Microphone announcement is now being made.
· Flashing Green: Chime tone is now sounding.
5-63
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. The assigned patterns can then be recalled by pressing their corresponding keys.
If the base patterns are to be switched at fixed times every day, program settings can be made to switch patterns referenced to the VX-2000's software timer.
Y will be explained.
Supposing that the Remote Microphone's keys 37 and 38 are set as follows:
Key
37
38
Setting
BGM Pattern 1
BGM Pattern 2
Function
BGM output to the A-1F Conference Room in addition to the originally set zone.
BGM output to the B-1F Conference Room in addition to the originally set zone.
Lights
BGM Pattern 1 key 37
Step 1. Press the BGM Pattern 1 key 37 to additionally broadcast
BGM to the A-1F Conference Room.
The right-side LED lights green to indicate that the "BGM
Pattern 1" base pattern is in use.
BGM Pattern 2 key 38
38
Lights
BGM Pattern 1 key
Step 2. Press the BGM Pattern 2 key to additionally broadcast
BGM to the B-1F Conference Room.
The right-side BGM Pattern 1 LED will extinguish and the
PRELIMINAR
BGM Pattern 2 key
37
38
5-64
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.
Step 1. To increase the sound volume when the music changes from a more dynamic selection to a quieter tune, press the BGM 1 Volume Up key 40 .
The input level increases by 3 dB each time the key is pressed.
Lights
Volume Up LED
BGM 1 Volume Up key
Y
40
The right-side BGM 1 Volume Up LED lights green to indicate that the input level is higher than the initially set value.
BGM 1 Volume Down key 41
Volume Down LED
BGM 1 Volume Up key 40
Step 2. To decrease the sound volume when the music seems too loud, press the BGM 1 Volume Down key 41 .
The input level decreases by 3 dB each time the key is pressed.
The right-side BGM 1 Volume Up LED extinguishes when the input level returns to the initially set value.
Volume Up LED
BGM 1 Volume Down key 41
Volume Down LED
PRELIMINAR
The right-side BGM 1 Volume Down LED lights green when the input level drops below the initial setting.
BGM 1 Volume Up key 40
Volume Up LED
BGM 1 Volume Down key 41
Lights
Volume Down LED
5-65
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
Step 1. If the lobby becomes unclowded and quiet, the BGM output level can be reduced by pressing the Lobby
Volume Down key 55 .
The output level decreases by 3 dB each time the key is pressed.
The right-side Lobby Volume Down LED lights green when the output level drops below the initial value.
Lobby Volume Up key 54
Volume Up LED
Lobby Volume Down key
Y
55
Lights
Volume Down LED
Lobby Volume Up key 54
Step 2. When the lobby has been congested and noisy, increase the BGM volume by pressing the Lobby
Volume Up key 54 .
The output level increases by 3 dB each time the key is pressed.
The right-side Lobby Volume Down LED extinguishes to indicate that the output level returns to the initial setting.
Volume Up LED
Lobby Volume Down key 55
Volume Down LED
Lobby Volume Up key 54
The right-side Lobby Volume Up LED lights green
Lights when the output level increases above the initial value.
Volume Up LED
PRELIMINAR
Lobby Volume Down key 55
Volume Down LED
Note: Only the output levels of BGM broadcasts can be changed.
5-66
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.
Remote Microphone
RM-200X (1) (2)
Remote Microphone Extension RM-210
(3) (4) (5) (6) (7)
Y
RM-200X
REMOTE MICROPHONE
RM-210 RM-210 RM-210 RM-210 RM-210 RM-210 RM-210
Their function key settings are as follows:
RM-200X
RM-200X
REMOTE MICROPHONE
4 3 5
1
6
8
10
12
14
2
7
9
11
13
15
Key
1
2
3
4
5
6
7
8
9
24
25
Setting
Emergency Activation
Emergency Restoration
Emergency Restoration
(error)
All
Talk with 2 Tone Chime
A-Staff area
A-GF
A-1F
A-2F
A-3F
Failure Output Reset
Function
Activates the emergency broadcast mode.
Restores to general-purpose broadcast mode.
Restores to general-purpose broadcast mode after broadcasting the false alarm EV message.
Pre-selects the entire area.
Makes microphone announcements.
Pre-selects individual zones.
10
11 A-4F
RM-210 (1) PRELIMINAR
16
18
17
19
12
13
14
15
A-5F
A-6F
Message 3 In-house1
Message 4 In-house2
B-Staff area
B-GF
B-1F
Selects individual EV messages.
Pre-selects individual zones.
20
16
17
18
21
19 B-2F
22
23
20 B-3F
24
21 None No function assigned.
25
22 VX Failure Indicates VX-2000 failure.
23
RM-210
EV Failure
Failure Confirmation
Indicates EV-200 failure.
Indicates total system failure.
(Assignment of all failure outputs)
Resets failure indications.
5-67
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone Operation Examples
RM-210 (2)
RM-210 (3)
RM-210 (4)
RM-210
RM-210
40
42
44
36
38
41
43
45
37
39
26
32
34
28
30
31
33
27
29
35
50
52
54
51
53
55
34
35
32
33
36
39
40
37
38
41
42
43
44
49
50
47
48
51
52
53
54
55
Key
28
29
26
27
30
31
45
46
Setting
SF-A1 Failure
SF-A2 Failure
SF-B Failure
RM-1 Failure
RM-2 Failure
Fireman's Microphone
Failure
DS-1 Failure
DS-2 Failure
DS-3 Failure
None
A-Staff area Speaker
Open
A-GF Speaker Open
A-1F Speaker Open
A-2F Speaker Open
A-3F Speaker Open
A-4F Speaker Open
A-5F Speaker Open
A-6F Speaker Open
A-Speaker Ground
Fault
None
A-Staff area Speaker
Short
A-GF Speaker Short
A-1F Speaker Short
A-2F Speaker Short
A-3F Speaker Short
A-4F Speaker Short
A-5F Speaker Short
A-6F Speaker Short
None
None
Function
Indicates individual VX-2000SF unit failure.
failure.
failure.
Indicates individual Remote Microphone
Y
Indicates individual VX-2000DS unit
No function assigned.
Indicates individual speaker failure.
(Open circuit)
Indicates Building A speaker failure.
(Ground fault)
No function assigned.
Indicates individual speaker failure.
(Short)
No function assigned.
RM-210
5-68
5. Typical System Examples 5.5. System Operation
5.5.2. Remote Microphone Operation Examples
RM-210 (5)
RM-210 (6)
RM-210 (7)
RM-210
RM-210
RM-210
70
72
74
66
68
71
73
75
67
69
56
62
64
58
60
61
63
57
59
65
80
82
84
81
83
85
83
84
85
77
78
79
80
81
63
64
61
62
59
60
57
58
74
75
72
73
76
69
70
71
67
68
Key
56
65
66
82
Setting
A-Staff area Amplifier
Failure
A-GF Amplifier Failure
A-1F Amplifier Failure
A-2F Amplifier Failure
A-3F Amplifier Failure
A-4F Amplifier Failure
A-5F Amplifier Failure
A-6F Amplifier Failure
A-Standby Amplifier 1
Failure
A-Standby Amplifier 2
Failure
B-Staff area Speaker
Open
B-GF Speaker Open
B-1F Speaker Open
B-2F Speaker Open
B-3F Speaker Open
B-Staff area Amplifier
Failure
B-GF Amplifier Failure
B-1F Amplifier Failure
B-2F Amplifier Failure
B-3F Amplifier Failure
B-Staff area Speaker
Short
B-GF Speaker Short
B-1F Speaker Short
B-2F Speaker Short
B-3F Speaker Short
B-Speaker Ground
Fault
B-Standby Amplifier
Failure
None
None
None failure.
Function
Indicates individual speaker failure.
(Open circuit)
Indicates individual power amplifier failure.
Indicates individual speaker failure.
(Short)
Indicates B-speaker failure.
(Ground fault)
Indicates B-standby amplifier failure.
No function assigned.
5-69
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:
Step 1. When a failure is detected, a buzzer sounds, and both left-side Failure LEDs located next to the B-3F Speaker
Short key 80 and Failure Confirmation key 24 flash.
Flashes
B-3F Speaker Short key 80
Flashes
Failure LED and
Failure Confirmation key
Y
24
Failure LED
B-3F Speaker Short key 80
Lights
Step 2. Press either the Speaker Short key 80 or the Failure
Confirmation key
24 to acknowledge the failure. The buzzer stops and the failure LED changes from flashing orange to steady orange.
Failure LED or
Failure Confirmation key 24
Lights
Failure LED
Step 3. Investigate and correct the problem.
Connect a PC to the VX-2000, investigate the cause of the failure by reading out the log, and correct the problem.
If necessary, check all connections using the PC software. For log readout and connection check, refer to p. 5-29 of this booklet.
Tip
For most failure indications, the failure LED
PRELIMINAR power amplifier failure or speaker shorts, the LED does not automatically extinguish. In such cases, Failure
Output Reset needs to be performed.
Failure Output Reset key 25
Step 4. Press the Failure Output Reset key 25 .
All of the failure LEDs will be extinguished.
Unused
5-70
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.
(1) Systems Using the VX-200SP Pilot Tone Detection Module
• Connect signal lines from the VX-2000's standard equipment control output or from the control output of the
VX-200SO Control Output Module to the VM-2120's (VM-2240's) Control I/O terminal (Pin 8, Broadcast cutoff). By interlocking the control outputs with emergency activations or zone selections, the system paging call is initiated from the VX-2000 system.
Y
• When the VM unit is used in a local sound system, connections between the VX and VM units can be monitored by the VX-200SP. However, when operations have been switched to the VX-2000, connections between the VM unit and its speakers can also be monitored.
For this reason, detectable failures between the VM unit and speakers vary depending on the system configuration condition. Note that ground faults between the VX unit and speakers can always be detected regardless of system conditions.
• When speaker line shorts are detected, broadcasts cannot be made to any zones connected to the VM system.
• The following table summarises the monitoring range and failures that can be detected, depending on system conditions.
System Condition Monitoring Range Failure Cause Detectable ( )
Undetectable ( X )
VX-2000 system in use.
Local system in use.
(Operation set to VM side)
Between VX and VM
Between VM and speakers
Between VX and VM
Between VM and speakers
Open circuit
Short circuit
Open circuit
Short circuit
Open circuit
Short circuit
Open circuit
Short circuit
X
X
X
Tip system configuration.
Note: Ground faults between the VM unit and the system's speakers can always be detected, regardless of PRELIMINAR
Example for Regular Detection of VM System-to-Speaker Shorts
To perform daily monitoring during a 10-minute interval between 0:00 and 0:10 a.m., set the VX-2000's timer so that system operation is switched over to the VX-2000 system by control output for a 10-minute interval beginning at 0:00 a.m.
5-71
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-2000 system VX-200SP
PA LINK
PA IN
SP OUT
LINE MONITOR
Power Amplifier
From VX-2000 or VX-200SO
Control Output
Local system VM-2120/-2240
CONTROL I/O Pin No.8
Broadcast cutoff
EXTERNAL
SPEAKER INPUT
ZONE 1
ZONE 2
ZONE 3
ZONE 4
ZONE 5
Y
PRELIMINAR
5-72
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.
• Because the VX-200SZ carries out its monitoring by switching the system over to the VX-2000 side during the time intervals set in the PC software's Impedance Monitoring Settings, the monitoring range is between the VX and speakers. Ground faults between the VX and speakers can always be detected (even when not monitoring), regardless of the system configuration.
Y system.
• The following table summarises the failure causes that can be detected, depending on system conditions:
System Condition
Monitoring in progress
Monitoring Range
Between VX and speakers
Failure Cause
Open circuit
Short circuit
Detectable ( )
Note: Ground faults between the VX unit and speakers can always be detected, regardless of system conditions.
Tip
Example for Regulary Monitoring VX System-to-Speaker Failures
To monitor at 0:00 a.m. every day, set the VX-200SZ Impedance Monitoring Setting start time to 0:00 a.m.
and the interval to 24 hours.
[Example of Connection Between the VX-200SZ and VM-2120 (VM-2240)]
VX-2000 system VX-200SZ
PA LINK
PA IN
SP OUT
ATT
CTRL
N1 (NO)
N2 (NC) C
Power Amplifier
Broadcast cutoff
EXTERNAL
SPEAKER INPUT
ZONE 1
ZONE 2
ZONE 3
ZONE 4
ZONE 5
5-73
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.
• When using the SV-200M, set it to timer operation mode. The SV-200M carries out monitoring between the
VM unit and speakers at time intervals set with its internal timer.
• The VM-200M monitors each of 5 VM zones individually. If a speaker line is short-circuited, only the zone
Y
200M's Surveillance I/O connector. (Ground fault data can also be output, however connections are not necessary because it can be detected by the VX-200SP or VX-200SZ.)
Failure data transmitted from the SV-200M to the VX's control input can be visually indicated on the system's
Remote Microphones, VX-2000 and VX-2000SF. Such failure information can be logged as faulty external input.
• The following tables summarise the monitoring range and detectable failure causes that vary depending on system conditions when the SV-200M is used in combination with the VX-200SP or VX-200SZ.
[When Used With the VX-200SP]
System Condition
VX-2000 system in use.
Local system in use.
(Operation set to VM side)
Detectable ( ) Monitoring Range
Between VX and VM
Failure Cause
Open circuit
(detected by VX-200SP)
Short circuit
(detected by VX-200SP)
Between VM and speakers Open circuit
(detected by SV-200M)
Short circuit
(detected by VX-200SP/SV-200M)
Between VX and VM Open circuit
(detected by VX-200SP)
Short circuit
(detected by VX-200SP)
Between VM and speakers Open circuit
(detected by SV-200M)
Short circuit
Note: Ground faults between the VX unit and speakers can always be detected, regardless of system conditions.
(detected by SV-200M) PRELIMINAR
[When Used With the VX-200SZ]
System Condition Monitoring Range Failure Cause Detectable ( )
VX-200SZ monitoring Between VX and speakers Open circuit
(detected by VX-200SZ/SV-200M)
Short circuit
(detected by VX-200SZ/SV-200M)
VX-200SZ not monitoring Between VM and speakers Open circuit
(detected by SV-200M)
Short circuit
(detected by SV-200M)
Note: Ground faults between the VX unit and speakers can always be detected, regardless of system conditions.
5-74
5. Typical System Examples
5.6. Examples of Connections to the VM-2120 or VM-2240
Tip
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.
For this purpose, it is recommended that the VX-200SZ's Impedance Monitoring Setting be set for a much longer interval than the SV-200M's Monitor Timer Setting. Performing this setting will increase the probability that the SV-200M will detect failures before the VX-200SZ.
(Setting Example)
VX-200SZ Impedance Monitoring Setting
SV-200M Monitor Timer Setting
Time: 0:00 a.m.
Interval: 24 hours
60 minutes intervals
Y
[Example of Connection for the System Using the SV-200M]
VX-2000 system
Local system
VX-200SZ
ATT
CTRL
N1 (NO)
N2 (NC)
PA LINK
PA IN
SP OUT
C
VM-2120/-2240
CONTROL I/O Pin No.8
Broadcast cutoff
EXTERNAL
SPEAKER INPUT
ZONE 1
ZONE 2
ZONE 3
ZONE 4
ZONE 5
Power Amplifier
To VX-2000 or VX-200SI Control Input
For details regarding the VM-2120 (VM-2240) and the SV-200M, refer to the VM-2120 (VM-2240) instruction manual.
5-75
6.1. School 6. System Examples
6.1.1. External View of the School
School
Work shop
Gymnasium
Y
Football field
PRELIMINAR
6-1
6. System Examples 6.1. School
6.1.2. Internal Wiring
Workshop
2F Corridor
School
2F Class rooms
PA room
Stairs
1F Corridor
Fireman's microphone
VX-2000
VX-2000SF
Amplifier
Teachers' room
Entrance
1F Class rooms
VM-2120
Gymnasium Y
Football field
PRELIMINAR
6-2
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.
• The Remote Microphones installed in the teachers' room and the Staff area can make individual zone calls to other buildings. System failure modes can also be indicated on RM-200X + RM-210 x 2.
• In the gymnasium, the local VM-2120 amplifier is installed.
Broadcast is switched from the local VM-2120 amplifier operation to the central VX-2000 system operation by the VX-200SZ's external attenuator control signals.
Y
VX-2000 VX-2000SF
RM-200X + RM-210 x 2 VP-2241
VP-200VX
Football field
1F Teachers' room
VX-200SZ
VP-2241
VP-200VX
1F Staff area
RM-200XF
VX-200XR
VX-200SZ
Work shop
VP-2241
VP-200VX VX-200SZ
School corridor
PM-660U
2F PA room
VP-2241
VP-200VX
VX-200XI
VX-200SZ
Gymnasium
VM-2120
CD Player U-01R
Gymnasium
EV-200
(Commercial message)
Wireless Tuner
WM-4200
VP-2241
School 1F
School 2F
VP-2241
VP-200VX Standby Amplifier Software Timer
Note: The chime unit and the software timer are pre-installed in the VX-2000.
6-3
6. System Examples
6.2.1. External View of the Building
6.2. Department Store
Y
PRELIMINAR
6-4
6. System Examples
6.1.2. Internal Wiring
6.2. Department Store
Staff area
Escalator
Staff area
Escalator
Staff area
Escalator
Security room
VX-2000
VX-2000SF
Amplifier
Escalator
Escalator
Escalator
Escalator
Reception
Escalator
3F
1F
2F
Y
Fireman's
Microphone GF
PRELIMINAR
6-5
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
GF Recaption
GF Security room
GF Exit
RM-200X
RM-200X
VX-200XR VX-200SZ
VX-200SZ
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
GF
1F
2F
3F
Y
RM-200XF
VX-200XR
CD Player
CD Player
U-01R
U-01R
EV-200
EV-200
Chime
Software Timer
VX-200SZ
VX-200SZ
VX-200SZ
VP-2064
VP-200VX
VP-200VX
VP-200VX
VP-200VX
Escalator
Escalator
Staff area
Standby Amplifier
Note: The chime unit and the software timer are pre-installed in the VX-2000.
PRELIMINAR
6-6
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.
• The broadcast zones and broadcast duration depend on control signals received from the connected fire alarm system.
• Buttons to activate the Evacuation message broadcast are configured in all zones.
Y
Step 1. In general-purpose broadcast mode,
BGM is broadcast to the entire building
BGM 3F
General-purpose broadcast mode area.
BGM 2F
BGM 1F
GF BGM
Step 2. A fire has broken out on 2F.
A sensor detects it and the connected fire alarm system transmits a control signal to the VX-2000's Control Input.
The Emergency mode is activated, and
BGM play is interrupted.
The Alert message (EV-1) is broadcast to warn the people on 2F.
Emergency activation by the fire alarm system
Alert
3F
2F
1F
GF
[EV-1] [EV-2]
Alert message
(2F)
No broadcasting zone
Control signal received from the fire alarm system
Step 3. Three minutes after the Emergency mode was activated, the fire alarm system automatically transmits a
PRELIMINAR messages.
The Evacuation message (EV-2) is broadcast to both 2F and 3F, while the
Evacuation
Evacuation
3F
2F
Alert message
(1F, GF)
Evacuation message
(2F, 3F,
Elevator,
Staff area)
Alert 1F
Alert message (EV-1) is broadcast to the remaining zones to provide warning of the detected fire.
Alert GF
6-7
6. System Examples 6.2. Department Store
6.2.4. Emergency Mode Operation (Dual-Origin EV Broadcasts)
Step 4. Since the fire has not been extinguished, a decision is made to press the fire button to call all zones for immediate evacuation.
Pressing the button transmits a control signal to the VX-2000, and broadcasts the Evacuation message (EV-2) to all zones.
The fire button is pressed to transmit a control signal.
Evacuation 3F
Evacuation 2F
Evacuation 1F
Evacuation GF
[EV-1] [EV-2]
No broadcasting zone to all zones
Broadcasts Y
Step 5. Once the fire has been brought under control, the fire alarm system automatically transmits a reset control signal to the Control Input.
The Emergency broadcast mode is terminated, and general-purpose broadcasting is resumed, restoring the original BGM output.
Reset signal received from the fire alarm system.
BGM
BGM
BGM
BGM
3F
2F
1F
GF
General-purpose broadcast restored.
PRELIMINAR
6-8
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Table of contents
- 28 3.1. Block Diagram
- 28 3.2. Maximum System Configuration Table
- 29 4.1. Fireman's Microphone RM-200XF
- 29 4.2. Remote Microphone RM-200X
- 29 4.3. Remote Microphone Extension RM
- 29 4.4. System Manager VX
- 29 4.5. Remote Microphone Input Module VX-200XR
- 29 4.6. Audio Input Module with Control input VX-200XI
- 29 4.7. Voice Announcement Board EV
- 29 4.8. Surveillance Frame VX-2000SF
- 29 4.9. Impedance Detection Module VX-200SZ
- 29 4.10. Pilot Tone Detection Module VX-200SP
- 29 4.11. Control Input Module VX-200SI
- 29 4.12. Control Output Module VX-200SO
- 29 4.13. Equaliser Card VX-200SE
- 29 4.14. Power Amplifier 4 x 60 W VP
- 29 4.15. Power Amplifier 2 x 120 W VP
- 29 4.16. Power Amplifier 1 x 240 W VP
- 29 4.17. Power Amplifier 1 x 420 W VP
- 29 4.18. Power Amplifier Input Module VP-200VX
- 29 4.19. Power Supply Unit VX-200PS
- 29 4.20. Emergency Power Supply VX-2000DS
- 29 4.21. Power Supply Frame VX-2000PF
- 30 5.1.1. External View of the Building
- 30 5.1.2. Internal Wiring
- 30 5.2.1. VX-2000 Connections to Remote Microphones and Input Source Equipment
- 30 5.2.2. Connections between VX-2000 and VX-2000SF
- 30 5.2.3. SF Modules (VX-200SP, VX-200SZ, VX-200SI, VX-200SO) Connections
- 30 5.2.4. Connections Between VX-2000SF and Standby Amplifier
- 30 5.2.5. Connections Between VX-2000SF and VX-2000DS
- 30 5.2.6. Connections Between VX-2000DS and VX-2000PS
- 30 5.2.7. VX-2000 Cable Usage Table
- 60 5.3.1. PC Hardware Requirements
- 60 5.3.2. Offline Settings
- 60 5.4.1. Online Settings
- 60 5.4.2. Connections Between VX-2000 and PC
- 60 5.4.3. System File Download
- 60 5.4.4. Equipment Configuration Check
- 60 5.4.5. SF Initialisation and Equipment Interconnection Check
- 60 (1) Loading Logs
- 60 (2) Storing Logs
- 60 (3) Printing Logs
- 60 (1) Printing Out
- 60 (2) Printout Examples
- 60 5.5.1. Emergency Mode Operation (EV Single-source Sequence)
- 60 5.5.2.1. Emergency Mode Activation and Restoration
- 60 (1) From Emergency Mode Activation to Restoration
- 60 Restoration key
- 60 5.5.2.2. General-Purpose Broadcast
- 60 (1) Making Microphone Announcements
- 60 (2) Changing the Base Pattern
- 60 (3) Changing Sound Volume
- 60 (4) Failure Indication
- 60 (1) Systems Using the VX-200SP Pilot Tone Detection Module
- 60 (2) Systems Using the VX-200SZ Impedance Detection Module
- 60 (3) Using the SV-200M Surveillance Board with the VM-2122 or VM
- 61 6.1.1. External View of the school
- 61 6.1.2. Internal Wiring
- 61 6.1.3. Block Diagram
- 61 6.2.1. External View of the Building
- 61 6.2.2. Internal Wiring
- 61 6.2.3. Block Diagram
- 61 6.2.4. Emergency Mode Operation (Dual-Origin EV Broadcasts)