ViaLite HRK3, HRK3-DC, HPS-3, HPS-3-DC, HPS-CS-3 User Manual

ViaLite HD

Fibre Optic Link System

3U chassis

User Manual

HRK3-HB-5

CR3274 17/12/14

Pulse Power & Measurement Ltd, 65 Shrivenham Hundred Business Park, Watchfield, Swindon, Wiltshire SN68TY, UK

Tel +44 (0)1793 784389 Fax +44 (0)1793 784391 Email sales@ppm.co.uk Web www.vialite.com

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

2

Instrument Care and Safety Information

Please read the whole of this section before using your ViaLiteHD product. It contains important safety

information and will enable you to get the most from your Fibre Optic link.

Electrical Safety

The ViaLiteHD chassis provides the termination for power inputs and can be fitted with power supplies.

The ViaLiteHD chassis is a Safety Class 1 product (having metal chassis directly connected to earth via the power
supply cable).

When operating the equipment note the following precautions:

 Hazardous voltages exist within the equipment.
 There are no user serviceable parts inside; the covers MUST NOT be removed.
 There are no user replaceable fuses in the chassis mounted equipment. Replacement should only be carried out

by a ViaLite Communications technician.

 The chassis earth stud SHOULD be connected to the safety earth.
 When using a 2 pin power supply cable the chassis earth stud MUST be connected to the safety earth.
 The ViaLiteHD Power Supply Modules do not have an isolating switch on the mains voltage inlet. For this

reason, the ViaLiteHD chassis MUST be installed within easy reach of a clearly labelled dual pole mains
isolation switch, which supplies the equipment.

 PSU modules are fused on the mains live feed only. A second fuse should be used for the neutral connection

where the polarity of the connectors can be reversed; rating should match those given in section 5.1.1.

ESD Precautions

The ViaLiteHD chassis is not equipped with any active electronics but it may be fitted with them.

Precautions for handling electro-static sensitive devices should be observed when handling all ViaLiteHD modules.
Technicians should ensure that they use effective personal grounding (i.e. ESD wrist strap etc.) when servicing the
equipment. Any equipment or tools used should be grounded to prevent static charge build-up. Good practice should
be observed at all times. For reference see relevant standards.
EN 61340-5-1, “Protection of Electronic Devices from Electrostatic Phenomena – General Requirements”

Optical Safety

The ViaLiteHD chassis is not equipped with optical units but it may be fitted with them

The ViaLiteHD RF Transmitter and Transceiver modules contain laser diode sources operating at nominal
wavelengths of 1270nm to 1610nm.

These devices are rated as EN60825-1:2007 CLASS 1 radiation emitting devices. A class 1 laser is safe under all
conditions of normal use.

When operating the equipment note the following precautions:
 Never look into the end of an optical fibre directly or by reflection either with the naked eye or through an optical

instrument.

 Never leave equipment with radiating bare fibres – always cap the connectors.
 Do not remove equipment external covers when operating.

Hot surface

The ViaLiteHD Redundancy load module may have hot surfaces when operating under fulll load. The hot surfaces are
not accessible when fitted in an approved chassis installation.

Suitable precaution should be taken when handling this device.

 Allow to cool for 10 minutes
 Do not touch metallic surfaces or printed circuit board when hot.
 When handling, hold front panel and handle only.

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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TABLE OF CONTENTS

1 INITIAL INSPECTION ............................................................................................................................................................................ 5

2 INTRODUCTION TO THE VIALITEHD RANGE ..................................................................................................................................... 5

3 VIALITEHD AND VIALITE CLASSIC COMPATIBILITY .......................................................................................................................... 6

4 VIALITEHD SYSTEM COMPONENTS ................................................................................................................................................... 7

4.1 ViaLiteHD 19” chassis ................................................................................................................................................................ 7

4.2 Description ................................................................................................................................................................................. 7

4.3 Power Interface Management .................................................................................................................................................... 7

4.3.1 External backplane power ............................................................................................................................................. 7

4.3.2 Module bias feed ........................................................................................................................................................... 8

4.4 Alarm Management ................................................................................................................................................................... 8

4.4.1 “Alarm Concentrator” 50way Connector J1 .................................................................................................................... 8

4.4.2 Connecting to an "open collector" output. ...................................................................................................................... 8

4.4.3 Summary Alarm............................................................................................................................................................. 8

4.4.4 Module Alarm Defeat ..................................................................................................................................................... 9

4.4.5 Using open collector alarms with controller cards .......................................................................................................... 9

4.4.6 Using open collector alarms with RF switch and RF splitter cards ................................................................................. 9

4.5 Heat management ..................................................................................................................................................................... 9

4.6 Unused module positions ........................................................................................................................................................... 9

4.7 Minimum power supply load ..................................................................................................................................................... 10

4.8 Chassis Specification ............................................................................................................................................................... 11

4.9 Chassis connector pinouts ....................................................................................................................................................... 11

4.9.1 Chassis connector pin out J4 & J19-31 ........................................................................................................................ 12

4.9.1.1 Chassis connector pin out J4 & J19-31 - serial numbers below and including SN1221901 .................................................. 12

4.9.1.2 Chassis connector pin out J4 & J19-31 - serial numbers above and including SN1221902 .................................................. 12

4.9.2 LNA feed and BUC feed pin assignment for different module types ............................................................................. 13

4.10 Fan replacement ...................................................................................................................................................................... 14

5 VIALITEHD POWER SUPPLIES .......................................................................................................................................................... 15

5.1 6HP Chassis Power Supplies .................................................................................................................................................. 15

5.1.1 Specification ................................................................................................................................................................ 16

5.2 19” Chassis Power Requirements ............................................................................................................................................ 16

5.3 Redundancy load module, HRL ............................................................................................................................................... 16

5.3.1 Redundancy load module, plug-in card ........................................................................................................................ 17

5.3.2 Redundancy load module, front panel ......................................................................................................................... 17

5.3.3 Redundancy load module, DIP switches ...................................................................................................................... 17

5.3.4 Redundancy load module, setting the load DIP switches ............................................................................................. 18

5.3.5 Redundancy load module, using with SNMP and controller module............................................................................. 18

5.4 Power Supply HPS-CS-3 for use with OEM modules (HRx-xx-xM-xx) ...................................................................................... 18

6 INSTALLATION GUIDE ....................................................................................................................................................................... 20

6.1 Chassis Installation .................................................................................................................................................................. 20

6.2 6HP Power Supply Module Installation (slots 15 and 16) ......................................................................................................... 20

6.3 5HP Standard Plug-in Modules (slots 1-13) ............................................................................................................................. 20

6.4 5HP Blindmate Plug-in Modules (slots 1-13) ............................................................................................................................ 21

6.5 7HP Standard Plug-in Modules (slot 14 only) ........................................................................................................................... 22

6.6 5HP blanking panel installation (slots 1-13) .............................................................................................................................. 23

6.7 7HP blanking panel installation (slot 14) .................................................................................................................................. 23

6.8 6HP blanking panel installation (slots 15, 16) ........................................................................................................................... 23

6.9 Separate blindmate panels ...................................................................................................................................................... 24

6.10 Electrical power connection ..................................................................................................................................................... 24

6.11 Typical redundancy configurations ........................................................................................................................................... 25

6.11.1 Four 1:1 redundant transmitters, standard modules ..................................................................................................... 25

6.11.2 Four 1:1 redundant transmitters, blindmate modules ................................................................................................... 25

6.11.3 Six 1:1 redundant transmitters, standard modules ....................................................................................................... 25

6.11.4 Six 1:1 redundant transmitters, blindmate modules ..................................................................................................... 26

6.11.5 Four 1:1 redundant receivers, standard modules ......................................................................................................... 26

6.11.6 Four 1:1 redundant receivers, blindmate modules ....................................................................................................... 26

6.11.7 Six 1:1 redundant receivers, standard modules ........................................................................................................... 27

6.11.8 Six 1:1 redundant receivers, blindmate modules.......................................................................................................... 27

6.11.9 Four 1:1 redundant links, blindmate modules .............................................................................................................. 28

6.11.10 Six 1:1 redundant links, blindmate modules ................................................................................................................. 29

6.12 Shock and vibration ................................................................................................................................................................. 30

7 PART NUMBERING ............................................................................................................................................................................. 32

7.1 ViaLiteHD Chassis, part numbering ......................................................................................................................................... 32

7.2 ViaLiteHD Power supply, part numbering ................................................................................................................................. 32

8 MAINTENANCE AND FAULT-FINDING GUIDE ................................................................................................................................... 33

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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9 PRODUCT WARRANTY ...................................................................................................................................................................... 34

10 FCC APPROVAL ................................................................................................................................................................................. 34

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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1 Initial Inspection

Unpack and inspect the equipment as soon as possible. If there is any sign of damage or any parts missing, do not install the equipment
before seeking advice from ViaLite Communications or your local agent.

The equipment received should match the delivery note that is shipped with the equipment. If there are any discrepancies, contact ViaLite
Communications or your local agent.

2 Introduction to the ViaLiteHD Range

The ViaLiteHD range has been developed to provide a modular solution to the transmission of a wide range of analogue and digital data
where traditional ‘copper wire’ systems cannot be used, for example, in electrically noisy environments or over long distances.

The range is ideal for permanent and semi-permanent installation in Satellite communications, GPS, antenna remoting and other related
applications.

The variety of links available includes low frequency timing (2kHz) to wideband RF (4.2GHz), RF splitters, amplifiers and switches; they also
include a full suite of supporting functions including RS232/422/485, Ethernet and control systems to monitor and control the system with
both Web and SNMP interfaces.

All ViaLiteHD equipment operates over high quality glass fibre optic cable, which can be supplied in low-cost 3mm jacket, riser and outdoor
specifications. The links can also be used with existing cable systems at customer premises.

A ViaLiteHD system can be added to at any time, enabling the system to evolve with the needs of the user.
ViaLiteHD is a product brand manufactured by Pulse Power and Measurement Ltd (PPM). ViaLite Communications is a division of Pulse

Power and Measurement Ltd (PPM).

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3 ViaLiteHD and ViaLite Classic compatibility

The RF and optical interfaces of most ViaLiteHD and ViaLite Classic modules are compatible. However the physical size, mounting
systems and control of the modules are different, so it will not be possible to fit ViaLiteHD module in a ViaLite Classic chassis or housing and
vice versa. However it is possible for modules of different types to interwork and be used to expand existing systems. Listed below is a brief
summary of inter family compatibility.

 RF Compatible optical and RF interfaces
 RF + digital Compatible optical and RF interfaces
 RS232 Compatible optical and digital interfaces
 RS422 Compatible optical and digital interfaces
 RS485 Compatible optical and digital interfaces
 Ethernet Modules of matching speed have compatible optical and digital interfaces
 Redundancy Switch Compatible RF interfaces may need interface cable (no optical interface)
 RF Splitters Compatible RF interfaces (no optical interface)
 Amplifier Compatible RF interfaces (no optical interface)
 SNMP Not compatible

Contact ViaLite Communications or your local agent for more details.

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4 ViaLiteHD System Components

4.1 ViaLiteHD 19” chassis

4.2 Description

The 19” chassis is suitable for 19” rack mounting. There are two versions, one for alternating current (AC) power and one for direct current
(DC) power.

The chassis accommodates up to thirteen (5HP) plug-in RF/data modules, one (7HP) control module and two (6HP) plug-in power supplies.
The hot-swappable, dual power supply capability provides full redundancy and maximum reliability to avoid traffic loss in the event of a power
supply failure. The chassis incorporates a backplane PCB for the distribution of DC power, status alarms and data.

Note: Each power supply position requires a separate power source to provide fully redundant protection.

The plug-in modules simply plug into the chassis, allowing the user to replace modules quickly and easily or to upgrade the system with
additional modules at any time. For ease of upgrade and replacement, most modules are offered with the option of a Blindmate interface,
where all interface cables are connected to in the chassis hardware and not the module.

Each of the RF/data module positions has a dedicated D type connector that provides access to all the digital data for that module; this is
fitted to the chassis backplane.

All of the module alarm outputs, both digital alarms and analogue monitors, are routed to a SCSI-3 connector on the rear panel of the
chassis. This connector also has the interface for the summary alarm relay if a module has been fitted to provide this function. This permits
the integration of the ViaLiteHD equipment into a Maintenance & Control system.

All of the module external power connections (LNA feeds) and chassis backplane external power connections are routed to a second SCSI-3
connector on the rear panel of the chassis.

Module slots 1-14 have a data bus that can be used for sending and receiving data between modules.

4.3 Power Interface Management

External power can be provided to, or taken from the chassis via the “Power Concentrator” connector J4, the current should be limited to 1A
per pin for single pins or 0.8A per pin for shared pins. The power level (sum of chassis and external power) must be within the capability of
the chassis power supplies, see specification in section 5.2.

4.3.1 External backplane power

If the chassis is powered externally the input DC voltage measured at the power concentrator connector should be 12Vdc +/- 0.5V. If chassis
power supplies are also fitted we would advise that a low voltage drop diode (i.e. Schottky or similar) be used to OR the power feeds.

It is also possible to provide external power to a chassis fitted with PSUs, for this reason the current share bus (CSB) is available on “Power
Concentrator” connector J4. If this option is used the chassis must be interfaced to ViaLite Communications approved external power
supplies, and the +12Vdc, GND and CSB lines for each power source should be connected in parallel.

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4.3.2 Module bias feed

It is possible to provide a bias voltage from the modules to connected devices. Dependent on module type, this can be either internally
sourced from the module or provided via the “Power Concentrator” connector J4. The current limit is dependent on module type fitted.

4.4 Alarm Management

The alarm strategy on the ViaLiteHD system caters for all levels of Alarm and Monitoring System complexity from simple module failure LED
indication, to local and remote end alarm notification and redundancy switching.

All modules provide an alarm output to the chassis backplane to indicate that the module is present and working correctly. The alarm is fail­safe in that when a working module is withdrawn from the chassis an alarm is registered for that module position.

4.4.1 “Alarm Concentrator” 50way Connector J1

All module alarms are provided for the user on the 50 way “Alarm Concentrator” connector on the chassis rear panel. These outputs are
"open collector" outputs. There are also two analogue monitors per module position. Their function depends on the type of module fitted.

4.4.2 Connecting to an "open collector" output.

The alarm output pin should be connected to a suitable current source (a positive voltage via a 10kohm pull-up resistor is adequate). When
the module is in a working (non-alarm) state, the alarm output pin is short circuited to ground by the module. If the module enters an alarm
state, the alarm pin is released to a high impedance state and current is no longer drawn from the constant current source. In the case of a
positive voltage and pull-up resistor, the voltage on the alarm output pin will rise to indicate the alarm state. It follows that, if a module is
removed from the chassis, the alarm will be raised for that module position.

The capability of the open collector is dependent on the module that provides it.
The typical capability of the Open Collector/Drain is 50mA maximum current sink and 15V maximum voltage (Vext)

4.4.3 Summary Alarm

A summary alarm can be provided if an appropriate module is fitted in the 7HP slot (slot 14). This function can be provided by either of the
following modules

 SNMP control module (automatic sensing of module presence)
 Summary alarm relay module (manual setting of module presence)

If no module is fitted the summary alarm relay connections will all be open circuit.
If an appropriate module is fitted there is a volt free 3-pin connection present on “Power Concentrator” Connector J4. The three connections

are Normally Open (NO), Common (COM) and Normally Closed (NC).
Condition 1 - Power applied to chassis, no alarms (i.e. normal condition)

 Pin NO is open circuit
 Pin NC is connected to COM

Condition 2 - Power removed from chassis and/or one or more module alarms (i.e. Alarm condition)

 Pin NO is connected to COM
 Pin NC is open circuit

RELAY_x [1= normally closed, 2=common, 3=normally open]

Vext

Pull up
Resistor

Alarm

Ground

Internal to module External to module

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4.4.4 Module Alarm Defeat

In some installations, the chassis might not be fully populated with modules. In this case, the module alarm output for the vacant positions
would register a continuous alarm state and the Summary Alarm Output would also register an alarm condition.

It is very important to ensure that the DIP switches on the Summary alarm relay module or software alarm mask of the SNMP control module
for chassis positions where modules are “present” is set correctly. If a DIP switches/software mask is set incorrect ly for a “present” module,
then if this module were to fail, NEITHER THE MODULE ALARM NOR THE SUMMARY ALARM WOULD DETECT THE FAILURE. The
front panel LEDs of the module will always register an alarm condition correctly regardless of the state of the DIP switches/software mask.

4.4.5 Using open collector alarms with controller cards

When a chassis is fitted with a controller card (i.e. SNMP and web controller or summary alarm card) all the alarm lines will be loaded and
pulled up. The alarm lines are pulled up to as shown below.

SNMP and web controller pulled up to 3.3V via 4.7k ohms* (see warning below)
Summary Alarm pulled up to 5V via 100k ohm, with series diode
* Applying external voltage to these pins may cause damage, contact ViaLite communications

Note: the alarm line for slot 14 is always pulled up irrespective of the card status, these cards are all fitted with summary alarm relays.

4.4.6 Using open collector alarms with RF switch and RF splitter cards

When a chassis is fitted with an RF switch or RF splitter card the alarm lines of the adjacent slots will be loaded and pulled up. The alarm
lines are pulled up to as shown below.

RF switch or RF splitter pulled up to 5V via 10k ohm, with series diode

4.5 Heat management

The chassis is designed to meet its environmental specification, when operating in a typical configuration. A typical configuration is all
modules populated (13*Transceiver, 1*SNMP, 2*PSU), chassis power consumption 67 watts, no external DC power input or DC output and
no obstruction to convection air path.

Under normal operating conditions module slots 1-14 are cooled by convection, module slots 15 and 16 are force air cooled with exhaust at
rear of the chassis. The chassis will continue to run without the forced cooling provided by the integrated fan but its operating temperature
will be reduced.

 Single PSU only fitted: maximum operating temperature reduced by -5C
 Airflow above chassis blocked: maximum operating temperature reduced by -10C
 Airflow below chassis blocked: maximum operating temperature reduced by -5C
 No forced air: maximum operating temperature reduced by -10C

Also see section 5.2 that details the typical power consumption of most common types of modules.

4.6 Unused module positions

We advised that all unused slots be fitted with blanking panels. Different widths of blanking panel are available these fit the 5HP general
purpose (slots 1-13), 7HP controller card slots (slot 14), 6HP power supply slots (slots 15,16). They can be used with any ViaLiteHD 19inch
chassis and will prevent accidental/unwanted access and the ingress of dust. Blanking panels available are.

 85044 ViaLiteHD Blank Panel, 5HP Slots 1-13
 85050 Reusable ViaLiteHD Blank Panel, 5HP Slots 1-13
 HPS-0 ViaLiteHD Blank Panel, 6HP Slot 15, 16
 85046 ViaLiteHD Blank Panel, 7HP Slot 14
 85049 Reusable ViaLiteHD Blank Panel, 7HP Slot 14

Contact ViaLite Communications or your local agent for more details.
There are two types of the 5 and 7 HP blanking panels. The standard blanking panels are fitted with snap in plastic barbs. These are

designed to permanently hold the blanking panel in position. Please ensure that you have fully planned the configuration of your chassis, as
the plastic barbs are a close tolerance fit and removal results in the barbs being broken; the panel should then be discarded.

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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85044 ViaLiteHD Blank Panel, 5HP 85046 ViaLiteHD Blank Panel, 7HP
There are also reusable panels available (85049 and 85050) with handles to keep them in place.
The 6 HP blanking panels are fitted with handles to secure them into either slot 15 or 16. These are design to permanently hold the blanking

panel in position.

HPS-0 ViaLiteHD Blank Panel, 6HP

4.7 Minimum power supply load

If the chassis power supplies are operating in dual redundant configuration, there should be a minimum load of 12 watts to ensure that both
power supplies are active, below this level one power supply may be in idle mode (its LED will not be illuminated). If necessary a
redundancy load module can be supplied, to fit into any unused slots to meet this minimum power requirement, see section 5.3.

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4.8 Chassis Specification

HRK3

HRK3-DC

Description

19” Rack Mounting Chassis

Max. No. of 5HP modules

13 (in slots 1-13 only)

Max. No. of 7HP modules

1 (in slots 14 only)

Max. No. of 6HP modules

2 (in slots 15,16 only)

19” Rack Mounting

Yes

Desktop Mounting

Not Suitable (use ViaLite Classic products)

Width, internally

84 HP

Width, externally

483 mm

Height, internally

3U

Height, externally

134 mm

Depth, externally

265 mm

Maximum weight

1.8 kg (chassis ONLY), 7.2 kg (chassis and slot modules)

Cooling

Convection (slots 1-14); Forced air (slots 15,16) exhaust at rear

Operating Temperature

-10C to +50C

Humidity

0-95%, Non-condensing

Power Supply compatibility

HPS

HPS-DC

Chassis power input

2 x IEC 60320, 3 pins each

2 x screw terminal, 2 pins each

Chassis earth

Rear panel M4 stud

Fan power

IDC male, Dual row 6 pin

 DC power to rear mounted fan cassette

Data Connector

9way Female D with screw-lock termination at the rear of each module position (1 per 5 HP slot).

 Data input/output for individual modules.

Alarm Concentrator Connector
J1: SCSI-3

This concentrates the alarms from each module to a common point.

 Open Drain alarm (1 per 5 & 7HP slot)
 Power Good (2 per 6 HP slot)
 Analogue Monitor (2 per 5 HP slot)
 Ground

Type: 50 way connector Har-mik® female [SCSI-3]

Power Concentrator Connector
J4: SCSI-3

This concentrates the power connections and summary alarms to a common point.

 +12Vdc backplane power
 Ground
 Current sharing bus
 Summary Alarm relay (optional)
 External LNA bias (1 per 5 HP slot)

Type: 50 way connector Har-mik® female [SCSI-3]

ViaLiteHD plug-in module
compatibility

All types

4.9 Chassis connector pinouts

All connectors are viewed looking into connector from mating interface
Each connector is shown in the correct orientation for normally mounted 3U chassis

Pin Out – J32 “Fan power” connector

Pin

Chassis Fan

Pin

Chassis Fan

Pin

Chassis Fan

1

+12Vdc

3

+12Vdc

5

GND

2

+12Vdc

4

GND 6 GND

Note: Colour indicates relevant connector drawing

 An optional mating half cable is available for use in ViaLiteHD system

Chassis connector:

50 way SCSI-3 Har-mik® female

Module connector:

9 way D-Type connector female

Fan connector:

6 way IDC dual row male

No.1 contact

2 x 4-40 UNC thread

9

1

6

5

No.5 contact

No.6 contact

No.9 contact

Contact No 1

Contact No 6

Contact No 2

Contact No 6

Contact No 26

Contact No 1Contact No 25

Contact No 50

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Pin out – J1 “Alarm Concentrator” connector*

Pin

Chassis J1*

Pin

Chassis J1*

Pin

Chassis J1*

Pin

Chassis J1*

1

GND

14

Analogue_monitor_B_8

27

ALARM_3

40

Analogue_monitor_B_11

2

ALARM_2

15

Analogue_monitor_B_10

28

ALARM_5

41

Analogue_monitor_B_13

3

ALARM_4

16

Analogue_monitor_B_12

29

ALARM_7

42

GND

4

ALARM_6

17

GND

30

ALARM_9

43

GND

5

ALARM_8

18

GND

31

ALARM_11

44

Analogue_monitor_A_2

6

ALARM_10

19

Analogue_monitor_A_1

32

ALARM_13

45

Analogue_monitor_A_4

7

ALARM_12

20

Analogue_monitor_A_3

33

GND

46

Analogue_monitor_A_6

8

ALARM_14

21

Analogue_monitor_A_5

34

ALARM_P_1

47

Analogue_monitor_A_8

9

ALARM_P_2

22

Analogue_monitor_A_7

35

Analogue_monitor_B_1

48

Analogue_monitor_A_10

10

GND

23

Analogue_monitor_A_9

36

Analogue_monitor_B_3

49

Analogue_monitor_A_12

11

Analogue_monitor_B_2

24

Analogue_monitor_A_11

37

Analogue_monitor_B_5

50

GND

12

Analogue_monitor_B_4

25

Analogue_monitor_A_13

38

Analogue_monitor_B_7

13

Analogue_monitor_B_6

26

ALARM_1

39

Analogue_monitor_B_9

Note: See your module handbooks for assignment and function of the “Analogue_monitor” pins

4.9.1 Chassis connector pin out J4 & J19-31

The pin out of connectors J4 & J19-31 has been changed, to add additional functionality to the chassis. Check serial number to find correct
pin out. See section 4.9.1.1 and 4.9.1.2 below. The approximate last shipment date of the early revision racks is July 2013, contact ViaLite
Communications for more details.

4.9.1.1 Chassis connector pin out J4 & J19-31 - serial numbers below and including SN1221901

Below is the pin out of J4 and J19-J31 for all early production chassis with serial number below and including SN1221901.
Pin Out – J19 to J31 “Module Data” connectors

Pin

Slot data

Pin

Slot data

Pin

Slot data

1

GND 4 TX_232_IN

7

RX_422_OUT-

2

TX_422_IN+

5

GND 8 RX_232_OUT

3

TX_422_IN-

6

RX_422_OUT+

9

RTS_485

Note: Data on the connector is only for the module fitted in that 5HP slot and is printed beneath (J19 = slot 1, J20 = slot 2 … J31 = Slot 13)
Connections in Blue text are optional and only available on some types of module

Pin out – J4 “Power Concentrator” connector*

Pin

Chassis J4*

Pin

Chassis J4*

Pin

Chassis J4*

Pin

Chassis J4*

1

CSB

14

GND

27

Relay_1 (NC)

40

LNA_feed_3

2

Relay_2 (COM)

15

LNA_feed_2

28

GND

41

LNA_feed_5

3

GND

16

LNA_feed_4

29

GND

42

LNA_feed_7

4

GND

17

LNA_feed_6

30

GND

43

LNA_feed_9

5

GND

18

LNA_feed_8

31

+12Vdc

44

LNA_feed_11

6

+12Vdc

19

LNA_feed_10

32

+12Vdc

45

LNA_feed_13

7

+12Vdc

20

LNA_feed_12

33

+12Vdc

46

GND 8 +12Vdc

21

GND

34

+12Vdc

47

GND

9

+12Vdc

22

GND

35

+12Vdc

48

GND

10

+12Vdc

23

GND

36

+12Vdc

49

GND

11

+12Vdc

24

GND

37

+12Vdc

50

GND

12

+12Vdc

25

GND

38

LNA_feed_1

13

+12Vdc

26

Relay_3 (NO)

39

GND

Note: The Chassis and power ground are common

4.9.1.2 Chassis connector pin out J4 & J19-31 - serial numbers above and including SN1221902

Below is the pin out of J4 and J19-J31 for all later production chassis with serial number above and including SN1221902.
The backplane is marked ‘Issue C’ – this description can be found on the PCB between slot 13 and 14 when viewed from the front.

Pin Out – J19 to J31 “Module Data” connectors

Pin

Chassis Summary

Pin

Chassis Summary

Pin

Chassis Summary

1

GND 4 TX_232_IN

7

RX_422_OUT-

2

TX_422_IN+

5

RTS_485_2

8

RX_232_OUT

3

TX_422_IN-

6

RX_422_OUT+

9

RTS_485_1

Note: Data on the connector is only for the module fitted in that 5HP slot and is printed beneath (J19 = slot 1, J20 = slot 2 … J31 = Slot 13)
Connections in Blue are optional and only available on some types of module

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Pin out – J4 “Power Concentrator” connector*

Pin

Chassis J4*

Pin

Chassis J4*

Pin

Chassis J4*

Pin

Chassis J4*

1

CSB

14

GND

27

Relay_1 (NC)

40

LNA_feed_3

2

Relay_2 (COM)

15

LNA_feed_2

28

GND

41

LNA_feed_5

3

GND

16

LNA_feed_4

29

GND

42

LNA_feed_7

4

GND

17

LNA_feed_6

30

BUC_feed_1

43

LNA_feed_9

5

GND

18

LNA_feed_8

31

BUC_feed_3

44

LNA_feed_11

6

BUC_feed_2

19

LNA_feed_10

32

BUC_feed_5

45

LNA_feed_13

7

BUC_feed_4

20

LNA_feed_12

33

BUC_feed_7

46

GND

8

BUC_feed_6

21

GND

34

BUC_feed_9

47

GND

9

BUC_feed_8

22

GND

35

BUC_feed_11

48

GND

10

BUC_feed_10

23

GND

36

BUC_feed_13

49

GND

11

BUC_feed_12

24

GND

37

+12Vdc

50

GND

12

+12Vdc

25

GND

38

LNA_feed_1

13

+12Vdc

26

Relay_3 (NO)

39

GND

Note: The Chassis and power ground are common

4.9.2 LNA feed and BUC feed pin assignment for different module types

The function of J4 pins described as LNA_feed and BUC_feed can vary dependant on the module type. The table below shows pin
assignment for all different module types.

The “X” used on the pin assignment indicates the slot to which the LNA or BUC feed is connected (i.e. LNA_feed_8 is connected to slot 8).
When an “A” or “B” suffix is shown this is used to indicated which channel of the dual module (i.e. “LNA_feed_A_X” or the LNA or BUC feed)

is connected to, it will match with the connector letter on the rear panel. Channel “A” is the upper channel and channel “B” is the lower
channel. Transceivers always have the receiver as the upper channel and the transmitter as the lower channel.

The LNA and BUC feed will only be connected if the module in the slot has the appropriate functionality.
J4 pin assignment for a transmitter, TX module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

TX

LNA_feed_X

NC (Not Connected)

J4 pin assignment for a receiver, RX module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

RX

NC (Not Connected)

BUC_feed_X

J4 pin assignment for a transceiver, TRX module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

TRX

LNA_feed_X

BUC_feed_X

J4 pin assignment for a dual transmitter, DTX module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

DTX

LNA_feed_A_X

LNA_feed_B_X

J4 pin assignment for a dual receiver, DRX module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

DRX

BUC_feed_A_X

BUC_feed_B_X

J4 pin assignment for a Switch, SW module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

SW

Switch_feed_X

NC (Not Connected)

J4 pin assignment for a Splitter, SP module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

SP

Splitter_feed_X

NC (Not Connected)

J4 pin assignment for a single Amplifier, AMP module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

AMP

Amplifier_feed_X

NC (Not Connected)

J4 pin assignment for a Dual Amplifier, AMP module

Chassis J4, LNA_feed_X

BUC_feed_X (J4)

AMP

Amplifier_feed_A_X

Amplifier_feed_B_X

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4.10 Fan replacement

If the fan is not turning, the fan cartridge assembly should be replaced. This can be completed without disconnecting the chassis from the
mains supply.

Please ensure that when the fan is outside of its safety enclosure it is disconnected from its power connector
The fan is removed by the following procedure.

 Disconnect the fan power connector J32.
 Using a magnetic screw driver, remove the two screws fixing the fan cassette
 Withdraw the fan cassette

The fan is replaced by the following procedure.

 Insert the fan cassette.
 Using a magnetic screw driver fix the cassette in place using the two screws provided
 Connect the fan power connector J32,

NOTE: The FAN connector is polarised, match the slot in the receptacle with the key of the plug.

 Check that air is being exhausted.

View of fan connector showing polarisation ViaLiteHD Power Supplies

Plug key

Receptacle

slot

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5 ViaLiteHD power supplies

5.1 6HP Chassis Power Supplies

The HPS series power supplies provide DC power to all plug-in modules in the 19” chassis. Two versions are offered, HPS with universal
mains input and HPS-DC with wide range DC input. Either one or two HPS modules can be fitted. Two HPS modules will provide dual
redundant operation. Separate supply inputs mean that they can be operated from different supplies for even higher levels of availability.
During normal operation, the supplies current share to maximise reliability. In the event of a failure all the chassis current will be provided by
the remaining operational module. The front panel LED provides a visual indication of failure, and a power good alarm output is available for
use at the “Alarm Concentrator” connector.

The modules are fan-cooled for maximum reliability and each PSU offers an MTBF of 270,000 hours at an ambient temperature of 40C.

The HPS power supply has a wide range alternating current (AC) input and can operate from 110V and 230V nominal mains supplies. Mains
power is applied at the rear of the chassis via an earthed IEC60320 connector, and regulated direct current (DC) power is supplied to the
chassis backplane PCB for distribution to the plug-in modules. This connector is also used for reporting PSU alarm status.

For DC versions HPS-DC, power is applied at the rear of the chassis via a 2-pole screw terminal connector; it will operate from a wide range
DC input 20-72Vdc.

Both types of power supply are internally fused; this fuse is only expected to fail under fault conditions. The fuse is located internally
underneath the earthed safety cover; this is not user serviceable and must be returned to ViaLite Communications for replacement.

On the front panel the module has a single LED indicator. This reports the status of the module. IF the LED is GREEN the module is
operating in its normal non-alarm state. If the LED is OFF, the power supply is not supplying 12V and has either failed or is in standby mode,
see section 4.7.

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5.1.1 Specification

HPS-3

HPS-3-DC

Description

Wide input range AC power supply

Wide input range DC power supply

Dimensions, internal (W x H)

6HP * 3U

Dimensions, external (W x H x D)

188 x 129 x 30 mm

Weight

0.6kg

Input Supply Power

110V or 230V nominal at 50/60Hz
88 - 264V absolute range

20 – 72Vdc
Fuse

Internal, 4 A / 250 Vac

Internal, 10 A / 125 V

Efficiency

75%

84%

Switch on current

<20A @ 230Vac

<6.5A @ 20V input

Output voltage

12.0 +/ -0.5Vdc

Output ripple

50mV

Maximum input current

1.6A

6.5A

Maximum output power

100 W single PSU
180 W dual PSUs

Minimum load power

12 W

Inlet air temperature

-10 to +50C

Derating >+50C

1.5% / C, absolute maximum 70C

3% / C, absolute maximum 70C

Hot-swapping and Dual Redundant

Yes

Output overload

Built in overload protection switches output OFF and automatically restarts at 110% nominal current

Output over voltage protection

19Vdc

Status Indicators

Front panel GREEN power LED

Rear Panel alarm outputs

Power Good on J1 “Alarm Concentrator” connector
12V = Normal operation; 0V = Alarm

MTBF @40C

270 000 hours at 100% load

5.2 19” Chassis Power Requirements

The exact power requirements of modules are given in the module handbooks, however the details below maybe used to approximate the
power output requirements from the chassis mounted PSUs. The input power requirements can be calculated by using the power supply
efficiency given in section 5.1.1

Single Transmitter 2.0 W Typical per slot, excluding LNA/LNB power
Single DWDM Transmitter 3.2 W / 4.0W / 6.0 Typical per slot at 25/50/70°C, laser types “D”, “E” and “K”, excluding LNA/LNB power
Single Receiver 1.5 W Typical per slot
Dual Transmitter 4.0 W Typical per slot, excluding LNA/LNB power
Dual Receiver 2.6 W Typical per slot
Transceiver 3.3 W Typical per slot, excluding LNA/LNB power
Amplifier 2.4W Typical per slot
Serial Digital 0.7W Typical per slot
Switch 0.4W Typical per slot
Splitter 0.4W Typical per slot
Ethernet 1.9W Typical per slot
SNMP controller 4.0 W Typical per slot
Alarm and Load 1 W Typical, plus 0/3/6/9/12 W load, per slot
Redundancy load module 1 W Typical, plus 0/3/6/9/12 W load, per slot
LNA/LNB feed up to an additional 14.6 W per slot, if used (efficiency 89% typically and 80% minimum).
AC to DC efficiency see section 5.1.1
DC to DC efficiency see section 5.1.1

5.3 Redundancy load module, HRL

The redundancy load module ensures that when redundant power supplies are used, there is enough current for both power supplies to be
active. The module can provide a maximum load of 12 watts, this load can be switched in 3 watt steps. It can be fitted into a standard 5HP
slot.

The module can provide a maximum load of 12 watts, but this load can be switched in 3 watt steps
Load 0 / 3 / 6 / 9/ 12 watts switched

Control via switch selection, using four DIP switches
Setting* 1 or 2 modules fitted all four switches ON
3 or 4 modules fitted three switches ON
5 or 6 modules fitted two switches ON
7 or 8 modules fitted one switch ON
9 or more modules fitted

* These calculations assume the lowest possible power consumption to meet the minimum load specification; a more accurate calculation
can be made by either using the modules datasheets or the estimates in section 5.2.

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5.3.1 Redundancy load module, plug-in card

The redundancy load module does not have a microprocessor, I2C bus or an alarm line. It will not be recognised by the ViaLiteHD SNMP
and web controller or included in the GUI. The alarm line of the module is resistively pulled down.

The ViaLiteHD Redundancy load module may have hot surfaces when operating under full load. Suitable precaution should be taken when
handling this device, see safety instructions.

5.3.2 Redundancy load module, front panel

The redundancy load plug-in module has two front panel LEDs for indication of the state of the module.
The following table shows the operation

Colour

SNMP and Web controller

LED1

GREEN

Normal

No light

No power

LED2

GREEN

LOAD ON (Any load resistor active)

No light

LOAD OFF

5.3.3 Redundancy load module, DIP switches

The ViaLiteHD Redundancy load module has one four way DIP switch (SW5) that configures the load.

The switch is on the rear side of the module and can be accessed with the module partially withdrawn.

SW5

Name

OFF

ON

Position 1

Load 1

Load resistor OFF

Load resistor ON

Position 2

Load 2

Load resistor OFF

Load resistor ON

Position 3

Load 3

Load resistor OFF

Load resistor ON

Position 4

Load 4

Load resistor OFF

Load resistor ON

LED1

LED2
DIP switch (SW5)

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5.3.4 Redundancy load module, setting the load DIP switches

Detail of the DIP switch positions are given in section 5.3.3. If you wish to activate any of the resistive loads follow the sequence below.

1. Calculate the additional load required, see section 5.1.1., 5.2 and 5.3

2. Round this load up to the nearest three watt step

3. Switch the appropriate number of DIP switches of SW5 to the ON position

Note. If sufficient load is not applied, it is possible for a PSU front panel power LED to be GREEN and the “power good” output to be LOW
(alarm state), in this case the power supply will not be registered by the ViaLiteHD summary alarm and SNMP and web controller cards.

5.3.5 Redundancy load module, using with SNMP and controller module

The redundancy load module is not fitted with a micro controller or I2C memory, so it is not visible on the ViaLiteHD controller GUI or
accessible via SNMP.

5.4 Power Supply HPS-CS-3 for use with OEM modules (HRx-xx-xM-xx)

The HPS-CS-3 is a Panel Mounting 12V DC output, mains input supply with a 15 way Molex connector for connection to ViaLiteHD OEM
modules (HRx-xx-xM-xx).

HPS-CS-3

Description

Wide input range AC power supply

Dimensions, external (W x H x D)

90 * 45 * 32 mm, supplied with mounting bracket

Lead length

1700mm typical

Weight

0.2kg

Input Supply Power

110V or 230V nominal at 50/60Hz
90 - 264V, 47-63Hz absolute range

Efficiency

83%

Output voltage

12.0 +/ -0.5Vdc

Output ripple

100mV pk-pk

Maximum output power

16 W, 1.5A @ 12V

Minimum load power

0 W

Status Indicators

GREEN power LED

Operating temperature

-20 to +60C, derate above +40C

Storage temperature

-20 to +85C

Derating >+40C

2.4% / C above +40C, absolute maximum 60C

Input protection

Over voltage protection

Output protection

Short circuit protected (Polyswitch)

Insulation class

Class 2

Power input

IEC-60320 2 pin input socket C8, supplied with matching power lead

Power output

Molex, CGRID3, 15 way socket (female)
Pin 4 = GND
Pin 5=+12V
Power connections match the requirements of ViaLiteHD OEM modules (HRx-xx-xM-xx)
All other pins are unconnected

Illustration of IEC-60320 2 pin input socket C8 configuration

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HPS-CS-3 with supplied mounting bracket (power lead not shown)

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6 Installation Guide

6.1 Chassis Installation

The ViaLiteHD Power Supply Modules do not have an isolating switch on the mains voltage inlet. For this reason, the ViaLiteHD Chassis
must be installed within easy reach of a clearly labelled dual pole mains isolation switch, which supplies the equipment.

The ViaLiteHD 19” chassis is designed to fit 19” racks and occupies a height of 3U. The chassis is provided with flanges for mounting to the
rack. The Chassis backplane contains 9-way D-type data connectors for each module position. This provides user access to data
connections from relevant modules (depends on module type). The pin outs of these connectors depend on the type of module in use in that
chassis position. There is also an “Alarm concentration” connector providing access to alarms and monitoring information from all modules
and a “Power Concentration” connector that provides access to various power feeds and the summary alarm.

6.2 6HP Power Supply Module Installation (slots 15 and 16)

The ViaLiteHD Power Supply Module powers the plug-in modules via the Chassis backplane PCB. It occupies slots 15 and 16.
To install a 6HP power supply module

 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Align the module upright and perpendicular to the front face of the chassis so that the PCB slides into the “straight” card guides top and

bottom.

 Gently push the module down its guide, applying pressure via the handle; you may also apply pressure just above the LED. Avoid

applying pressure on the ventilation grill.

 As the module is fully mated the top of the handle should snap back and lock in position.
 The pawls of the handle should be fully engaged in the matching slots.

To remove a 6HP power supply module

 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Apply pressure via the handle and gently withdraw the module from the chassis.

6.3 5HP Standard Plug-in Modules (slots 1-13)

All ViaLiteHD plug-in modules are hot-swappable, so it is not necessary to power-down the chassis before inserting a module. All standard
optical connectors are retained by the module. So it will be necessary to either disconnect any cables or have a sufficiently long service loop.

To install a 5HP Standard module and matching interface plate

 The protective covers on the connectors may be left in place.
 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Align the module upright and perpendicular to the front face of the chassis so that the PCB slides into the “crow’s feet” card guides top

and bottom.

 Gently push the module down its guide, applying pressure via the handle, you may also apply pressure between the LED and test

connector.

 As the module is fully mated the top of the handle should snap back and lock in position.
 The pawls of the handle should be fully engaged in the matching slots.
 If power is applied to the chassis the module power LED should light as soon as the module is fully inserted
 Remove protective covers and connect any interface cables

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To remove a 5HP Standard module

 Disconnect any cables if necessary
 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Apply pressure via the handle and gently withdraw the module from the chassis.

6.4 5HP Blindmate Plug-in Modules (slots 1-13)

All ViaLiteHD plug-in modules are hot-swappable, so it is not necessary to power-down the Chassis before inserting a module. All blind
mate optical connectors are provided with spring loaded covers that will protect the optics of any inserted modules. As there is no cover on
the opposite side, mating cables should not be installed until the slot modules are present.

To install a blind mate module and matching interface plate

 Firstly inspect the rear Blindmating plate, ensure that the connector barrels are fitted into all RF connectors and are centrally aligned.
 Remove protective covers from the inside face of the optical connector if fitted
 Ensure that the rear plate is free of any dust and contamination, if necessary clean with filtered compressed air.
 Screw the Blindmating plate into the appropriate slot at the rear of the chassis, using the supplied screws and a “Pozidriv Number 1”

screwdriver

 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Remove the protective cover from the modules optical connectors and clean any optical connectors
 Align the module upright and perpendicular to the front face of the chassis so that the PCB slides into the “crow’s feet” card guides top

and bottom.

 Gently push the module down its guide, applying pressure via the handle, you may also apply pressure between the LED and test

connector.

 As the module is fully mated the top of the handle should snap back and lock in position.
 The pawls of the handle should be fully engaged in the matching slots.
 If power is applied to the chassis the module power LED should light as soon as the module is fully inserted
 Connect any interface cables to the blind mate plate

To remove a blind mate module

 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Apply pressure via the handle and gently withdraw the module from the chassis.
 Check that the RF mating barrel is retained by the chassis Blindmating plate
 All cables with be retained by the chassis.

Note if modules are absent for an extended period there is chance of the optical fibres being contaminated as the optical mating interface is
unprotected. If this happens it will be necessary to clean both the blind mating adaptor and fibre optic cable.

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6.5 7HP Standard Plug-in Modules (slot 14 only)

All ViaLiteHD plug-in modules are hot-swappable, so it is not necessary to power-down the chassis before inserting a module. All standard
optical connectors are retained by the module. So it will be necessary to either disconnect any cables or have a sufficiently long service loop.

To install a 7HP Standard module

 The protective covers on the connectors may be left in place.
 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Align the module upright and perpendicular to the front face of the chassis so that the PCB slides into the “crow’s feet” card guides top

and bottom.

 Gently push the module down its guide, applying pressure via the handle, you may also apply pressure between the LED and test

connector.

 As the module is fully mated the top of the handle should snap back and lock in position.
 The pawls of the handle should be fully engaged in the matching slots.
 If power is applied to the chassis the module power LED should light as soon as the module is fully inserted
 Remove protective covers and connect any interface cables

To remove a 7HP Standard module

 Disconnect any cables if necessary
 Push the release button of the module handle down and simultaneously pull the top of the handle forwards.
 Apply pressure via the handle and gently withdraw the module from the chassis.

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6.6 5HP blanking panel installation (slots 1-13)

Blanking panels should be the last panel installed into your chassis
To install the blanking panel

 Firstly inspect the blanking panel ensure that the plastic barbs are in good condition
 Align the plastic barbs with the larger holes centrally above and below the slot on the chassis top and bottom rails.
 Firmly push the panel in until you feel the barbs click

To remove the blanking panel

 Pull the blanking panel towards you, it may be necessary to use extra leverage.
 Discard the panel as the plastic barbs will now be over stressed and will not provide a reliable fixing.

6.7 7HP blanking panel installation (slot 14)

Blanking panels should be the last panel installed into your chassis
To install the blanking panel

 Firstly inspect the blanking panel ensure that the plastic barbs are in good condition
 Align the plastic barbs with the larger holes centrally above and below the slot on the chassis top and bottom rails.
 Firmly push the panel in until you feel the barbs click

To remove the blanking panel

 Pull the blanking panel towards you, it may be necessary to use extra leverage.
 Discard the panel as the plastic barbs will now be over stressed and will not provide a reliable fixing.

6.8 6HP blanking panel installation (slots 15, 16)

Blanking panels should be the last panel installed into your chassis
To install the blanking panel

 Push the release button of the panel handle down and simultaneously pull the top of the handle forwards.
 Align the panel upright and perpendicular to the front face of the chassis so that the plate slides into the “straight” card guides.
 Gently push the panel down its guide, applying pressure via the handle.
 As the panel is fully mated the top of the handle should snap back and lock in position.
 The pawls of the handle should be fully engaged in the matching slots.

To remove the blanking panel

 Push the release button of the panel handle down and simultaneously pull the top of the handle forwards.
 Apply pressure via the handle and gently withdraw the panel from the chassis.

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6.9 Separate blindmate panels

If you wish to pre-populate and cable your blindmate chassis in advance, chassis plates can be purchased as spares, details below.

 PPM part number 85058 ViaLiteHD, Chassis plate, Blindmate, 1 * SMA 50ohms, 1 * SC/APC
 PPM part number 85059 ViaLiteHD, Chassis plate, Blindmate, 2 * SMA 50ohms, 2 * SC/APC
 PPM part number 85060 ViaLiteHD, Chassis plate, Blindmate, 1 * BNC 75ohms, 1 * SC/APC
 PPM part number 85061 ViaLiteHD, Chassis plate, Blindmate, 2 * BNC 75ohms, 2 * SC/APC
 PPM part number 85064 ViaLiteHD, Chassis plate, Blindmate, 1 * F-Type 75ohms, 1 * SC/APC
 PPM part number 85065 ViaLiteHD, Chassis plate, Blindmate, 2 * F-Type 75ohms, 2 * SC/APC
 PPM part number 85066 ViaLiteHD, Chassis plate, Blindmate, 2 * SMA 50ohms
 PPM part number 85067 ViaLiteHD, Chassis plate, Blindmate, 3 * SMA 50ohms
 PPM part number 85068 ViaLiteHD, Chassis plate, Blindmate, 4 * SMA 50ohms
 PPM part number 85069 ViaLiteHD, Chassis plate, Blindmate Duplexed, 1 * SMA 50ohms, 1 * SC/APC
 PPM part number 85070 ViaLiteHD, Chassis plate, Blindmate Duplexed, 1 * BNC 75ohms, 1 * SC/APC
 PPM part number 85071 ViaLiteHD, Chassis plate, Blindmate, 1 * BNC 50ohms, 1 * SC/APC
 PPM part number 85072 ViaLiteHD, Chassis plate, Blindmate, 2 * BNC 50ohms, 2 * SC/APC.
 PPM part number 85073 ViaLiteHD, Chassis plate, Blindmate, 2 * SC/APC

6.10 Electrical power connection

Power should be applied to the chassis with the supplied power cords (AC chassis only), if these are not used a suitable alternative should
be used. A substitute power cord should be rated as following

 Current rating 10A
 Voltage rating To match your installation requirement
 Mating connector (AC) IEC 60320 C13 socket (HRK3S)
 Mating connector (DC) Plug, stripped cable or fork terminal suitable for mounting to 4mm screw terminal (HRK3S-DC))

You should ensure that all cable is routed carefully to protect them from mechanical damage especially those caused by sharp edges.
Each chassis has two separate power feeds these separately feed, slots 15 and 16, as shown below. To fully isolate the chassis BOTH

power feeds MUST be removed.

AC powered chassis DC powered chassis

Electrical power connection locations

Slot 16 AC power feed

Ground stud (M4)

Slot 15 AC power feed

Slot 16 DC power feed

Slot 15 DC power feed

Ground stud (M4)

Red is positive

Black is negative

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6.11 Typical redundancy configurations

The chassis configuration below can be used to provide redundant fibre optic links by the use of ViaLiteHD chassis, with transmitters,
receivers, splitters and switches. Illustrated below are some popular configurations.

For simplicity the chassis configuration is viewed from the rear.

6.11.1 Four 1:1 redundant transmitters, standard modules

The blank slot can be used as a storage slot for a hot spare

Four 1:1 redundant transmitters using standard plug in modules and splitters, viewed from rear of chassis

6.11.2 Four 1:1 redundant transmitters, blindmate modules

The blank slot can be used as a storage slot for a hot spare

Four 1:1 redundant transmitters using blindmate plug in modules and splitters, viewed from rear of chassis

6.11.3 Six 1:1 redundant transmitters, standard modules

Six 1:1 redundant transmitters using standard plug in modules and splitters, viewed from rear of chassis

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

26

6.11.4 Six 1:1 redundant transmitters, blindmate modules

Six 1:1 redundant transmitters using blindmate plug in modules and splitters, viewed from rear of chassis

6.11.5 Four 1:1 redundant receivers, standard modules

The blank slot can be used as a storage slot for a hot spare

Four 1:1 redundant receivers using standard plug in modules and switches, viewed from rear of chassis

6.11.6 Four 1:1 redundant receivers, blindmate modules

The blank slot can be used as a storage slot for a hot spare

Four 1:1 redundant receivers using blindmate plug in modules and switches, viewed from rear of chassis

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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6.11.7 Six 1:1 redundant receivers, standard modules

Six 1:1 redundant receivers using standard plug in modules and switches, viewed from rear of chassis

6.11.8 Six 1:1 redundant receivers, blindmate modules

Six 1:1 redundant receivers using blindmate plug in modules and switches, viewed from rear of chassis

AAA
A

B

C

A

B

A

B

C

A

A

B

B

A

B

C

A

A

B

B

A

B

C

A

A

B

B

A

B

C

A

A

B

PSU

PSU

SNMP

SLOTS
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

B

A

AAA
A

B

C

A

A

B

S6 RF6 P6 S5 RF5 P5 S4 RF4 P4 S3 RF3 P3 S2 2 P2 S1 P1 RF RF1

Dual FOL RX

Dual FOL RX

Dual FOL RX

Dual FOL RX

Dual FOL RX

Single FOL RX

Single FOL RX

RF switch

RF switch

RF switch

RF switch

RF switch

RF switch

RF Port
Fibre optic port
RF cable
Fibre optic cable
R x - RF output port, path x

Px - Primary fibre optic cable
Sx - Secondary fibre optic cable

F

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6.11.9 Four 1:1 redundant links, blindmate modules

Four 1:1 redundant links using blindmate modules, splitters and switches, viewed from rear of chassis

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6.11.10 Six 1:1 redundant links, blindmate modules

Six 1:1 redundant links using blindmate modules, splitters and switches, viewed from rear of chassis

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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6.12 Shock and vibration

ViaLiteHD modules have been designed and tested to operate under significant mechanical stress; the tests run far exceed normal ground
fixed operational use. This has been done to assure the robustness and reliability of the designs. Below are detailed the tests undertaken.

The system under test was a set of 3U chassis mounted modules, powered by chassis mounted AC PSUs. The system is detailed below:

 HRK3S 3U chassis
 HPS-3 AC PSU
 HPS-3 AC PSU
 HRC-1-09-8R-20 SNMP controller
 HRT-N1-6R-35-S1310 1GHz TX
 HRR-N1-6R-05 1GHz RX
 HRX-N1-8D-05-C1530 1GHz TRX blindmate
 F6R1/0.5 Optical test cable
 F8R1/0.5 Optical test cable
 Laptop (running SNMP web interface), not subject to vibration or shock

Vibration and shock test configuration, rear view

Vibration applied to the system:

 Vibration (Sinusoidal)
 Planes 3 planes, X/Y/Z
 Severity 5G, 25 – 2000 Hz, 1 octaves per minute.
 Duration 1/2 hour in each axis
 Standard IEC68-2-6: 1982

Shock applied to the system:

 Shock (half sine);
 Axis: 6 axis, X+/X-/Y+/Y-/Z+/Z-
 Severity 15g/ 11ms Shock (half sine)
 Duration 3 shocks each direction of each axes
 Standard IEC68-2-27:1987

A continuous wave RF test signal was applied to the TX FOL and monitored on the RX FOL via a spectrum analyser. The spectrum analyser
used both maximum and minimum hold to capture performance extremes.

The test pass requirement was as follows:

 Continuous RF operation to specification.
 No SNMP error events to be logged.
 No front panel LED errors to be shown.
 No visible mechanical damage or degradation.

Orientation of shock and vibration

PSU

B
B

AAA
A

AAA
A

PSU

SNMP

SLOTS
16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1

Rfout Rfin

Single FOL RX

FOL TRX

Single FOL TX

AAA
A

RF Port
Fibre optic port
RF cable
Fibre optic cable

+

Z axis

-

+

Y axis

-

+ X axis -

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Spectrum plot of 500MHz CW tone when under vibration

Sample plot of vibration in Y axis

Sample plot of Half Sine Shock in Y+ axis

No measureable change in RF power level was detected. The system under test passed all the vibration and shock tests, detailed above. A
full test report is available, contact ViaLite Communications for more details.

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

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7 Part Numbering

7.1 ViaLiteHD Chassis, part numbering

7.2 ViaLiteHD Power supply, part numbering

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33

8 Maintenance and Fault-Finding Guide

Refer to the following table that gives a list of commonly encountered problems and suggested solutions.

Fault

Possible Causes

Solution

Power LED does not illuminate on the
plug-in PSUs.

Power is not connected to the PSU.

PSU is in idle mode.

Fuse has blown in PSU.

Connect mains power to the rear of the PSU.
Check fuses of power leads.

Add additional dummy load board or plug in
modules.

Return the module to ViaLite Communications
or your local agent.

Power LED does not light.

Power supply is not connected.
Incorrect rack or power supply type

Attach power source.
Check that rack type (AC or DC) matches your

power source.
Check that power supply type matches your

power source type (AC or DC) and voltage.

Fan not turning.

Fan power disconnected.

Check fan power connector is inserted.
Replace failed fan

Difficulty inserting module.

Incorrect alignment.

Incorrect module slot.

Check that the module is correctly fitted in the
card guides.

Check that module is in correct slot
Slots 1-13 for 5HP modules
Slot 14 for 7 HP modules
Slot 15-16 for 6 HP modules

Summary alarm triggered when no
module failure is indicated.

Summary alarm module: Open collector
alarms for unused slots not masked.

SNMP and web controller module: Open
collector alarms for unused slots not masked.

Failed Module.

Check that the DIP switches on the Summary
alarm relay module for all chassis positions are
set correctly.

Check the software alarm mask of the SNMP
control module for all chassis positions is set
correctly.

Return the module to ViaLite Communications
or your local agent.

In the event of any problems or queries about the equipment, contact ViaLite Communications or your local agent.
For module fault finding information see module handbooks

HRK3-HB-5 VIALITEHD 3U CHASSIS HANDBOOK

 PULSE POWER & MEASUREMENT LTD 2014

NO PART OF THIS DOCUMENT MAY BE REPRODUCED OR TRANSMITTED IN ANY FORM WITHOUT PRIOR WRITTEN PERMISSION.

PPM, 65 SHRIVENHAM HUNDRED BUSINESS PARK, SWINDON, SN6 8TY, UK.

TEL: +44 1793 784389 FAX: +44 1793 784391

EMAIL : SALES@PPM.CO.UK WEBSITE : WWW.VIALITE.COM

9 Product Warranty

The Company guarantees its products, and will maintain them for a period of three years from the date of shipment and at no cost to the
customer. Extended warranty options are available at the time of purchase.

Please note that the customer is responsible for shipping costs to return the unit to ViaLite Communications.
The Company or its agents will maintain its products in full working order and make all necessary adjustments and parts replacements during

the Company’s normal working hours provided that the Customer will pay at the rates currently charged by the Company for any

replacements made necessary by accident, misuse, neglect, wilful act or default or any cause other than normal use.
Claims must be made promptly, and during the warranty period.

IMPORTANT:­Please contact both your selling agent and ViaLite Communications prior to returning any goods for Warranty or Non-Warranty

repairs. Goods will not be accepted without a valid Goods Return Number (GRN).

10 FCC Approval

Information to the user of ViaLiteHD products
For a Class A digital device or peripheral, the following instructions are furnished to the user. This equipment has been tested and found to
comply with the limits for a Class A digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable
protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and
can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference
to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will
be required to correct the interference at his own expense.