Archives

Description

Relay modules may be programed to actuate based on

alarm conditions defined in other modules.  Use standard

logic elements (True AND, Normal AND, OR and NOT) to

combine various alarms and statuses (e.g. OK statuses,

Bypass, Protection State, Inhibit, Attention, Protection Fault,

etc.) into relay activation conditions. Orbit Studio is used to

program the voting logic.

Relays can operate as a  system or group protection fault

relay, if programmed to do so, especially when the protection

fault relay on the SIM does not provide adequate granularity

of system health – typically for multiple machines in one system.

Pairs of relays within the module function as a single Double

Pole, Double-Throw relay when appropriately configured.

Both relay types are available for SIL system implementation.

See Orbit 60 SIL User Guide (134M0398) for additional details

and design considerations.

The recorder output module provides analog outputs for any

proportional signal measurements available within the Orbit

60 system including the following examples:

• Processed Vibration measurements (Direct, 1X

Amplitude, 1X Phase, etc.)

• Temperature measurements

• Position measurements

The recorder output channels’ configuration includes several

options for clamp output levels, providing an indication of an

invalid health status of the associated measurement. The

system will also attempt to output the configured clamp

signal when any fault within the Recorder

Output channel or output load is detected.

The configuration also includes the option to

include Recorder Output channels within the

protection path so that detected faults within

the Recorder module or wiring can be

annunciated through Protection Fault relays.

(See SIL User Guide 134M0398 for additional

details when using the Recorder Output channels in a SIL application.)

The recorder output module provides analog outputs for any

proportional signal measurements available within the Orbit

60 system including the following examples:

• Processed Vibration measurements (Direct, 1X

Amplitude, 1X Phase, etc.)

• Temperature measurements

• Position measurements

The recorder output channels’ configuration includes several

options for clamp output levels, providing an indication of an

invalid health status of the associated measurement. The

system will also attempt to output the configured clamp

signal when any fault within the Recorder

Output channel or output load is detected.

The configuration also includes the option to

include Recorder Output channels within the

protection path so that detected faults within

the Recorder module or wiring can be

annunciated through Protection Fault relays.

(See SIL User Guide 134M0398 for additional

details when using the Recorder Output

channels in a SIL application.)

Description

The recorder output module is a 8-channel single slot width

module that provides an analog output signal based on a

processed measurement from any of the proportional

measurements within  the system. The output of the recorder

output channel is proportional to the associated

measurement value within the measurement’s full scale range.

The recorder output module is software-selectable to

operate in several output modes, providing the following

analog output signal ranges:

• 4 to 20 mA

• 1 to 5 V

• 0 to 10 V

When configured for a 4-20 mA output, the recorder channel

supports the extended output range of 3.8 mA to 20.5 mA to

align with the NAMUR NE43 standard.

These differing signal ranges can accommodate

connections to various interfacing equipment designed to

consume and interpret the proportional analog signals.

The recorder output module provides analog outputs for any

proportional signal measurements available within the Orbit

60 system including the following examples:

• Processed Vibration measurements (Direct, 1X

Amplitude, 1X Phase, etc.)

• Temperature measurements

• Position measurements

The monitor accepts +4 to +20 mA current inputs or any

proportional voltage inputs between -10 Vdc and +10 Vdc, in

addition to monitoring “dry” or “wet” contacts which can be a

sensor, switch, or relay.

Primary purposes of the PVD Module:

• Continuously process input from monitored

parameters to be compared against configured alarm

setpoints to drive alarms for machinery protection.

• Allow provision of essential machine information, such

as Trip Multiply for machine startup and Alarm Inhibit

for both operations and maintenance personnel.

These modules occupy a single slot. The module OK LEDs

indicate proper functioning and the LINK LEDs indicate good

system communication. Six Channel Status LEDs on the utility

side of the module indicate a connected sensor in OK condition.

Description

The Orbit 60 Series Isolated Process Variable and Discrete

(PVD) Input module processes machine-critical parameters

such as pressure, flow, temperature, and levels that merit

continuous monitoring. The module conditions and digitizes

the signals so the result can be compared with user

programmable alarm setpoints. The user can program the

PVD module using the Orbit Configuration software to

perform current, voltage or discrete input measurements.

This module provides discrete inputs for essential operational

commands, such as Trip Multiply for machine start-up and

Alarm Inhibit.

The monitor accepts +4 to +20 mA current inputs or any

proportional voltage inputs between -10 Vdc and +10 Vdc, in

addition to monitoring “dry” or “wet” contacts which can be a

sensor, switch, or relay.

Description

TC/RTD Temperature Module

The primary purpose of temperature modules is to interface

to the temperature transducers and convert the signal into a

digital representation. These modules condition and digitize

the inputs  at a rate that completely encompasses the signal

content and allows for removal of typical noise sources.

The Orbit 60 Series TC/RTD Temperature Input Modules

provide six channels of either Thermocouple (TC) or Resistive

Temperature Detector (RTD) temperature input sensors.

Each channel of the Orbit 60 Series TC/RTD input module is

individually configurable for sensor type and range using

Orbit Studio configuration software.

The RTD/TC inputs reference the internal system ground, and

for this reason, should only connect to transducers isolated at

the sensing end.

These modules occupy a single slot. The module OK LEDs

indicate proper functioning and the LINK LEDs indicate good

system communication. Six Channel Status LEDs on the utility

side of the module indicate a connected sensor in OK condition.

Sensor Types

TC sensors – The thermocouple configured channels provide

cold junction compensation for any J, K, E, or T Type

Thermocouple.

RTD sensors – The RTD configured channels can be

connected to the following:

• 3-Wire 100 Ohm Platinum 0.00392 RTD

• 3-Wire 100 Ohm Platinum 0.00385 RTD

• 3-Wire 10 Ohm Copper RTD

• 3-Wire 120 Ohm Nickel RTD

Description

The Orbit 60 Series AC LVDT Input Module provides inputs to

interface with four AC Linear Variable Differential Transformers

for position measurements. The module’s primary use is the

measurement of case expansion and valve position. The AC

LVDT input module occupies a single slot.

The four AC LVDT configured channels can connect to a:

• 5-wire AC LVDT

• 6-wire AC LVDT

Note: To configure the 6-wire, 3 and 4 pins are shorted together.

The module’s OK LED indicates when the module is

functioning properly, and the LINK LED indicate when the

module is communicating to the rest of the system. Four

channel status LEDs, located on the utility side of the module,

indicate that each AC LVDT sensor is connected and functioning properly.

Compliance and Certifications

FCC

This device complies with part 15 of the

FCC Rules. Operation is subject to the

following two conditions:

l This device may not cause harmful interference.

l This device must accept any interference received, including

interference that may cause undesired operation.

EMC

European Community Directive:

EMC Directive 2014/30/EU

Standards:

EN 61000-6-2; Immunity for Industrial Environments

EN 61000-6-4; Emissions for Industrial Environments

Electrical Safety

European Community Directive:

LV Directive 2014/35/EU

Standards:

EN 61010-1;

EN 61010-2-201;

RoHS

European Community Directive:

RoHS Directive 2011/65/EU

Cyber Security

Designed to meet IEC 62443-4-2

*Maritime

ABS Rules for Condition of Classification, Part 1

l Steel Vessels Rules

l Offshore Units and Structures

* Approvals pending

Functional Safety

SIL 2

The 2-wire input connection provides a

galvanically isolated, hi-impedance input

which primarily supports magnetic pick-up

speed sensors. The isolated input eliminates

potential ground loops that can occur when

speed sensors are shared between the

vibration system and other instrumentation.

The Keyphasor Input Module provides a

buffered transducer output for each channel.

Within Orbit Studio software, each output can

be configured within Orbit Studio Software to be

either a true analog signal representative of the

input or a conditioned/processed digital TTL

signal replicating machine speed and

maintaining phase with the input signal.

The Keyphasor Input Module can accept a

recip multi-event wheel signal, which is used to

track shaft rotation more precisely during a

revolution. This 13 tooth gear has a unique tooth

used to indicate the crank angle reference for

specific recip measurements.

The module supports backup speed source

functionality. When configured, if the primary

speed source enters an invalid state, a backup

speed channel will be utilized to provide a

speed reference for configured synchronous

measurements. Compensations for differences

in shaft speed and phase reference timings

can be configured to maintain measurement

accuracy upon transitioning to backup speed sources.

The module OK LED indicates when the module

is functioning properly, and the LINK LED

indicates when the module is communicating

to the rest of the system. Four Channel Status

LEDs located on the utility side of the module

indicate a connected sensor is installed and in

OK condition.