ADRE Datasheet

8/13/2019 ADRE Datasheet

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FOR REFERENCE ONLY Specifications and Ordering Information Page 1 of 16REFER TO DOCUMENT #172179

Specifications and Ordering InformationADRESxp / 408 DSPi

DescriptionADRESxp Software and the 408 DSPi (Dynamic Signal Processing Instrument) makeup a highly scalable system for multi-channel signal processing and data acquisition.

Unlike other general-purpose computer-based data acquisition systems, ADRESxp andthe 408 DSPi are specifically designed for real-time highly parallel signal processing andpresentation. This extremely versatile system incorporates the features and capabilitiesof many types of instrumentation into a single platform. The functionality ofinstrumentation such as oscilloscopes, spectrum analyzers, filters, signal conditioners,and digital recorders have all been included. The system is designed specifically forcorporate network environments, can be operated remotely across a LAN/WAN, or storedata in full Stand-Alone operation without the need for an additional/external computer.As a result, additional equipment is seldom, if ever, needed. When using the systemsreal-time display capability, data can be displayed continuously, independently of data

being stored to permanent memory. For established ADREusers, it is important to knowthat ADRESxp supports all your previous ADREfor Windows databases.

An ADRESxp data acquisition system consists of:

one (up to four)*408 Dynamic Signal Processing Instrument(s)and ADRESxp client software and a computer system capable of running ADRESxp software.

The 408 DSPi is fully portable or can be rack mounted allowing convenient operation intest stands, on-site, or remote locations. The 408 DSPis highly configurable designprovides support for virtually all standard and non-standard input types including bothdynamic transducer signals (such as proximity probes, velocity transducers,

accelerometers, and dynamic pressure sensors), and static signals (such as processvariables from transmitters and distributed control systems, 4-20mA). For rotatingmachinery applications, a Keyphasoror other speed input signal (such as magnetic oroptical transducer) can be provided to drive synchronous sampling and order tracking.The system also supports multiple triggering modes for automated data acquisition,allowing it to be used as a data or event logger without an operator present.

The Client-Server architecture allows multiple software clients to operate andsimultaneously view data from single/multiple 408 DSPi systems simultaneously. Userscan view data independently from one another in the fundamental measurement units oftheir choice. Software installation and configuration are quick and easy, allowing massconfiguration of multiple channels with minimal user intervention. Configuration templatesfurther speed the process. A user can install the software, produce a configuration, andbegin capturing data in just minutes.

Notes:(*) Connecting up to four 408 DSPi systems will be supported after first release. All hardware

connectivity is currently in place.


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408 DSPi Overview

Each 408 DSPi supports up to four (4) sampling cards forup to 32 channels of data acquisition. Up to four (4) 408DSPi units can be connected for a total of 128 channels ofdynamic data processing and storage*. The 408 DSPisupports both asynchronous and synchronous samplingfor all channels as part of the base system (internal clocks

and simulated speed/KPH). External speed inputs aresupported through the Speed Input/Trigger card whichsupports up to three (3) independent speed input channels.Each Speed Input/Trigger card uses one of the availableslots, a maximum of two (2) Speed Input/Trigger cards canbe used simultaneously for a total of up to six (6) physicalspeed inputs and six (6) simulated speed inputs. The usercan assign any speed input (KPH) to any channel in thesystem, including channels across multiple 408 DSPi units.Most signal processing and sampling parameters can bechanged on-the-fly without interrupting data collection.

The 408 DSPi architecture provides flexible hardwareconfiguration. Sampling cards can be inserted into the

chassis as depending on requirements. Slots 1- 4 supportall standard sampling cards. Slot 5 is used specifically forthe Digital Replay card as well as future option cards.

The 408 DSPi front panel is used to control and displaybasic functions and data. Manual samples and triggeringcan be initiated from the front panel directly without usingADRESxp software. A host of LEDs indicate samplingand trigger status and activity. Multiple samplingconfigurations can be downloaded to the 408 DSPi andthen selected for use at a later time from the front panel.

Notes:

(*) Connecting up to four 408 DSPi systems will be supported after firstrelease. All hardware connectivity is currently in place.

8 Channel Dynamic Sampling Card (168905 02)

The 8 channel dynamic sampling card is an extremelypowerful and flexible signal processing engine. Along withthe analog front-end conditioning, the user can configuremost any transducer input, with positive or negative bias,while maintaining maximum signal input range. An array ofDSP processors and 24bit A to D s provide maximumresolution. Input signals can be either AC or DC coupled.Upper and lower input voltage levels can be definedindependently along with full-scale range, and transducer

scale factor.

The sampling card can provide a variety of data dependingon the configuration and user needs. Each channel canprovide multiple static variables including: Directamplitude, Bandpass amplitude, 1X and 2X Amplitude &Phase, up to four (4) additional user defined nX vectorsincluding Amplitude & Phase, Average & InstantaneousGap or Bias voltage, multiple speed values, and adate/time stamp. In addition to the static data, eachchannel can provide up to four (4) user-defined dynamic

waveforms. Waveforms can be configured for Synchronousand/or Asynchronous sampling, with different sampling ratesand/or frequency spans, simultaneously. The sampling cardsupports up to two (2) different synchronous sampling ratessimultaneously. In addition, the raw time-continuous data canalso be sampled and stored for each channel. All channelswithin the system always sample simultaneously, aresynchronized, and are initiated based on a set of user

defined events.

3 Channel Speed Input/Trigger Card (168906 02)

The 3-channel Speed Input/Trigger card supports a variety oftransducer inputs and signal conditioning needs. Proximity,Magnetic, Optical, and Laser pickups are all directlysupported. Transducer power for both proximity ( 24Vdc)and optical pickups is also available if needed. The cardintegrates a full set of configurable analog signal conditioningtools including; input gain, voltage clamping, inversion, risingor falling edge trigger, auto/manual threshold, and hysteresis.A programmable speed input (KPH) multiplier/divider isprovided for each channel independently. The user can

define discrete values for events per revolution or a finalratio, whichever is more convenient. Each channel canspecify up to three separate stages of multiplier/dividerratios. Trigger/speed input channels provide full dynamicsampling, complete with static and waveform data, availablefor real-time viewing and storage. Each speed input/triggerchannel also includes a buffered output, allowing the user toselect either raw, conditioned analog, or TTL outputs. Thebuffered outputs are independent of the signal being used forprocessing.

Digital Replay Card (168907 AA-BB)

The Digital Replay Card provides the ability for simultaneoussynchronous and asynchronous internal digital reprocessingand playback of all channels in the 408DSPi. Exceptionalaccuracy and precision is maintained as part of thereprocessing functionality far surpassing capabilities of otherequipment and reprocessing techniques. The Digital ReplayCard will play back raw data forallchannels simultaneouslyincluding Keyphasor/speed and dynamic sampler inputs. Allsampling parameters can be modified on a KPH channelwhen replayed. KPH signals can be fully managed and re-conditioned, including gain, inversion, clamping, etc. Thisprovides the ability to control triggering edges and thresholdsas needed for reprocessing and analysis. On standarddynamic channels, most sampling parameters can be

modified. As an example, waveform assignments, variablegeneration, filtering options, frequency span, and KPHassignments that were non-existent in the originalconfiguration may be added/modified when the data isreprocessed. Additionally, all sampling criteria and triggeringparameters may be added/modified. Full scale range,coupling, and transducer type can not be altered for standarddynamic channels. The Digital Replay card is installed in slot#5 of the 408 DSPi and therefore does not reduce thenumber of channels available for data collection.


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Networking Overview

The 408 DSPi is a secure network appliance that supportsDHCP or fixed IP addressing based on your networkenvironment needs. When installed on a LAN/WAN inDHCP mode, the DHCP server or router will assign an IPaddress to the 408 DSPi. A fixed IP address can beassigned using ADRESxp software. When a direct

connection to the 408 DSPi is established from the clientcomputer, the IP address will be automatically assigned. Insome instances, primarily when navigating corporatesecurity infrastructures, firewalls, etc, specific routerconfiguration may be necessary to operate over a VPN(Virtual Private Network). Contact your local Bently Nevadatechnical support representative for details specific to yourneeds.

Specifications

Lists of specifications

System(408 DSPi) Typical specifications are provided for a

temperature of +25C 3C (+77F 5.4F ) exceptwhere noted.

Data StorageCapacity:

Internal - 130GBExternal - Multi Terabyte via externalU320 SCSI drive array (requiresconfiguration changes, pleasecontact Bently Nevada technicalsupport for details specific to yourneeds).

Communication:Dual 1000/100Mb RJ45 EthernetPortsProtocol - TCP/IPDHCP or Fixed IP addressingLAN/WAN compatible

Signal Conditioning - General8 Channel Dynamic Sampling Card 168905 02(Can be installed in slots 1 4)

24 Bit A/D converters

Input ImpedanceSingle Ended : 742kDifferential : 1.484 M betweensig+/-4-20 mA : 511Inputs :8 (Single Ended)4 (Differential)8 (4-20 mA)

Maximum Signal Input Range :-25 to 25 VAC Configurable Full Scale Range:0.7 to 10 VDC Configurable Full Scale Range:0.35 to 50 VStatus Indication :Boot, Selftest, OK/Not OK, Activity,

A/D overange

Direct Measurement Accuracy(1)

(1)Filter values @ 0 db points unless specified otherwise

Non-RMS, Non-IntegratedAmplitude:

AC Coupled - Hi Mode:1.6 Hz to 50kHz ( 96 to 3M rpm )

1% of Full Scale Range(2)

AC Coupled - Low Mode: N/A

DC Coupled - Hi Mode:1 Hz to 50kHz ( 60 to 3M rpm )


.011V below 1 V pp

DC Coupled - Low Mode:0.167 Hz to 20kHz ( 10 to 1.2M rpm )


.011V below 1 V pp

Non-Integrated,

RMS Amplitude:AccelerationAC/DC Coupled Hi Mode:10 Hz to 50kHz ( 600 to 3M rpm )


VelocityAC/DC Coupled Hi Mode:10 Hz to 50kHz ( 600 to 3M rpm )


AC Coupled Low Mode: N/A

AccelerationDC Coupled Low Mode:3 Hz to 50kHz ( 180 to 3M rpm )


VelocityDC Coupled Low Mode:3 Hz to 50kHz ( 180 to 3M rpm )(-3db @ 3Hz )



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Non-RMSIntegrated, RMSIntegratedAmplitude:

AccelerationAC Coupled Hi Mode:10 Hz to 20kHz ( 600 to 1.2M rpm )


VelocityAC Coupled Hi Mode:3 Hz to 20kHz ( 180 to 1.2M rpm )


Direct Measurement Update Rates

Valid KPH or Simulated KPH present:

0 to Peak / Peak to Peak valuesupdated every 4 KPH periods.

Invalid KPH or No KPH present:

High Mode 2 sec sliding window

Low Mode 12 sec sliding window

100ms update rate

Integrated Values:

High Mode 2 sec sliding window

Low Mode 2 sec sliding window

100ms update rate

Bandpass Measurement Accuracy(3)

Specification areexclusive of filter corner settings and transition regions.(3)

Filter values specified @ - 3 db points

Non-RMS, Non-IntegratedAmplitude:

1 Hz to 50kHz ( 60 to 3M rpm )

1% of Full Scale Input(2)

Non-RMSIntegrated, RMSIntegratedAmplitude:

1 Hz to 20kHz ( 60 to 1.2M rpm )

1% of Full Scale Input(2)

Bandpass FilterSelections:(Typical )

Butterworth2 Pole ( -40 db/decade )4 Pole ( -80 db/decade )6 Pole ( -120 db/decade )8 Pole ( -160 db/decade )

Range:High Pass 1 Hz to 25.5kHzLow Pass 10 Hz to 50kHz

Min separation betweenHPF and LPF:2 Pole 10.24 x HPF4 Pole - 3.24 x HPF

6 Pole - 2.25 x HPF8 Pole 1.96 x HPF

Options:HPF < 10 Hz ( 2 Pole )HPF 10 Hz ( 2, 4, 6, 8 Pole)LPF 10 Hz ( 2, 4, 6, 8 Pole)

-3db Corner Frequencies:HPF & LPF - 1 Hz Increments,-3db 5%

Bandpass Measurement Update Rates

Valid KPH or Simulated KPH present:

0 to Peak / Peak to Peak values updatedevery 4 KPH periods.

Invalid KPH or No KPH present:

Integrated 2 sec sliding window

Non-Integrated 2 sec sliding window

100ms update rate

FilteredMeasurements:

Filter Bandwidth - Selectable

1.2 cpm, 12 cpm, 120 cpm(0.02 Hz, 0.2 Hz, 2 Hz)

User enabled Auto-switching trackingfilters transition:120 cpm < to > 12 cpm @ 600 rpm12 cpm < to > 1.2 cpm @ 60 rpm

Filter Settling Time to 95 / 99 % of finalvalue:120 cpm < 0.477 / .796 sec12 cpm < 4.77 / 7.96 sec1.2 cpm < 47.7 / 79.6 sec

nX Amplitude/Phase Accuracy:1 to 120k rpm


3 of Input (Steady State)

nX Resolution/Range:0.01X Increments0.01X to ((samp/rev)/2-1)X


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Below Minimum amplitude:DC Coupled 0.015 VppAC Coupled 0.5% of full scale

Gap VoltageMeasurements:

Measurement Ranges:0 V to 24 Vdc

-24 V to 0 Vdc-12 to 12 Vdc-24 to 24 VdcUpper and Lower voltage range fullyprogrammable between -25 to 25Vdc

Amplitude: 0.13% of FSR @ -25 to 25 V 0.26% of FSR @ 0 to 25 V 0.26% of FSR @ -12.5 to 12.5 V(FSR = Full Scale Range)

Resolution:Measured 366.2 V @ 24 V FSR

Response to 95 / 99 % of final value:Instantaneous Gap: 0.95 / 1.59 sec.-3db 5% @ 0.5 HzAverage Gap : 5.3 / 8.84 sec,-3db 5% @ .09 Hz

Process VariableMeasurements:

Voltage Inputs:0 to 10 Vdc ( Typical )1 to 5 Vdc ( Typical )

Measurement Range:-25 to 25 Vdc ( Upper and Lowervoltage range fully programmable)

Amplitude: 0.12% of FSR @ 25V 0.30% of FSR @ 10V 0.75% of FSR @ 1-5V(FSR = Full Scale Range)

Resolution:152.588 V ( 0 to 10 Vdc )61.035 V ( 1 to 5 Vdc )

Response to 95 / 99 % of final value:0.95 / 1.59 sec.Low-pass filter:-3db 5% @ 0.5 Hz

4 20 mA Input:Input Range: 0 - 41.6 mA max

Amplitude: 1% of Full Scale Input

Resolution:244 nA / bit

Response to 95 / 99 % of final value:5.3 / 8.84 secLow-pass filter -3db 5% @ .09 Hz

Dynamic Waveform

Data:Filtering associated withasynchronously sampled dynamicwaveform data specific to anti-aliasfilters. Synchronously sampledwaveform data is not anti- alias filtered.

Asynchronous Sampling Rates:128 to 128kHz ( 2.56 x FrequencySpan, 50, 100, 250, 500, 1k, 2.5k, 5k,10k, 25k, 50k Hz )

Anti-Alias: -80 db Minimum

AC Coupled:1 Hz to 50kHz ( 60 to 3M rpm )

Amplitude: 1% of Full Scale Range(2)

Phase: 3 of Input

DC Coupled:DC Hz to 50kHz ( 0 to 3M rpm )

Amplitude: 1% of Full Scale Range(2)

Phase: 3 of Input

Output:Up to 4 simultaneous asynchronous

waveforms per channel

Synchronous Sampling Rates:Samples/rev (16, 32, 64, 128, 256,360, 512, 720,1024)

DC Frequency Support:120k rpm (2kHz) @ 16x60k rpm (1kHz) @ 32x30k rpm (500Hz) @ 64x15k rpm (250Hz) @ 128x7.5k rpm (125Hz) @ 256x5.3k rpm (88.8Hz) @ 360x

3.75k rpm (62.5Hz) @ 512x2.66k rpm (44.4Hz) @ 720x1.87k rpm (31.25Hz) @ 1024x(AC Frequency support from 1 Hz)

Output:Up to 2 simultaneous synchronouswaveforms per channel


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HardwareGenerated Spectra:

Spectral Lines:6400, 3200, 1600, 800, 400, 200,100 lines, selectable. Oneasynchronous spectrum per channel.

Windowing provided on spectrum up

to 800 lines, Rectangular, Hanning,Flat-Top

Free Running Spectrum: one perchannel

Zoom Spectrum: One asynchronousspectrum per channel.

Center Frequency: Configurable in 1Hz increments

Zoom Factors: 2, 5, 10, 20, 50

Spectral Lines: 100, 200, 400, 800

(2)Dynamic Sampling Card Amplitude vs Frequency

Cumulative error:

Frequency dependant amplitude andphase errors added to fixed rangespecifications.Amplitude error vs frequency0 % from 0 to 10kHz( 4) % from 10kHz to 50kHzPhase error vs frequency(-0.5) to (-2.8) deg from 0 to 5kHz(-2.8) to (-6.6) deg from 5kHz to

10kHz

Keyphasor/Speed Measurements:

3 Channel Speed Input (KPH) / Trigger DynamicSampling Card 168906 02(Can be installed in slots 1 4)

Accuracy:1 120k rpm, (+/- 0.00915)% ofPeriod Input, (+/- 11) rpm @ 120krpm Input

Simulated Keyphasor Accuracy:1 120k rpm (+/- 0.02) % of PeriodInput(Note - Keyphasor card not requiredto provide simulated Keyphasor. Upto 6 simulated Keyphasors)

Inputs:3 speed inputs per card (singleended), maximum 2 cards per

system. Proximity, magnetic, or opticaltransducers.One powered optical input (ch 3 only)Proximity inputs -25 to 25 VdcAC or DC CouplingInput Impedance: 128.9 k

Buffered Transducer Outputs:3 channels, user selectable output

Raw, Analog Conditioned, TTL 22V output maximum20 S min duty cycle for TTL outputOutput Impedance: 330Output Drive Capacitance: 6100 pf(min)Load Resistance 10k Short circuit protected

Amplitude and delay:Raw Outputs -AC Error: -0.91% to 0.42%DC Error: 60 mVSignal Delay: 0.6 S (0.43 deg @

2kHz)Conditioned Outputs -AC Error: -1.05% to 0.39%DC Error: - 0.35 V to +60 mVSignal Delay:2.0 S ( 4.0 S Optical ) (1.4/2.8 deg@ 2kHz)

Transducer Power:-24Vdc, 57.6 mA max

(-22.77Vdc max, -24.48 Vdc min)+24Vdc, 29 mA max

(+24.48Vdc max, +23.13Vdc min)+5Vdc, 250 mA max (+5.2Vdc max,

+4.25Vdc min, optical transducerpower, Ch 3 only)

Direct Measurement (KPH) Accuracy(1)

(1)

Filter values specified @ 0 db points

Non-RMS, Non -Integrated Amplitude:

AC Coupled - Hi Mode:1.6 Hz to 20kHz ( 96 to 1.2M rpm )


AC Coupled - Low Mode: N/A

DC Coupled - Hi Mode:1 Hz to 20kHz ( 60 to 3M rpm )


.011V below 1 V pp

DC Coupled - Low Mode:0.167 Hz to 20kHz ( 10 to 1.2M rpm )


.011V below 1 V pp


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Bandpass Measurement (KPH) Accuracy(2)

Specification are exclusive of filter corner settings andtransition regions.(2)

Filter values for bandpass specified @ -3 db points

Non-RMS, Non -Integrated Amplitude:

1 Hz to 20kHz ( 60 to 1.2M rpm ) 1% of Full Scale Range

(4)

Gap Voltage (KPH)Measurements:

Measurement Range:0 to 25 Vdc-25 to 0 Vdc-12.5 to 12.5 Vdc-25 to 25 Vdc

Amplitude: 0.14% of FSR @ -25 to 25 V

0.28 of FSR @ 0 to 25 V 0.28% of FSR @ -12.5 to 12.5 V(FSR = Full Scale Range)

Resolution:Measured 381.47 V @ 25V range

Response to 95 / 99 % of final value:Instantaneous Gap: 0.95 / 1.59 sec.-3db 5% @ 0.5 HzAverage Gap : 5.3 / 8.84 sec,-3db 5% @ .09 Hz

Status:Boot StatusSelf-testOver/Under SpeedActivityEdge Pulse

Error detection indicated if change inrotative speed between consecutiveKeyphasor pulses is greater than25%, or shaft rotative speed is lessthan 1 rpm, or greater than 120k rpm

Keyphasor Index:

Used to assist with positioning a shaftrelative to a reference position whilethe shaft is stopped. Manualthreshold must be selected forspeeds below 1 rpm.

Triggering:Automatic or Manual ModePositive or negative edge of signalinput, selectable.

Speed/Dynamic Frequency Range:DC Coupled: DC to 20kHzAC Coupled: 1Hz to 20kHz

Auto-Threshold:1 rpm 120k rpm (0.0167 Hz 2kHz),min voltage required at low freq

Manual Threshold:1 rpm to 120k rpm (0.0167 Hz to 2kHz)-25 Vdc to 25 Vdc, 0.10 Vdcincrements

Input Clamping:-25 to 25 Vdc, 0.01 V increments,positive and negative

Waveform Transformation:Inverting or non-inverting

Hysteresis:

0.2 to 2.0 V, 0.2 V increments0.2 to 1.0 V, 0.2 V increments (Optical )

AC Gain :1, 2, 5, 10

Minimum Input Duty Cycle:1.0 S pulse

Maximum Trigger Error:with sinewave inputInput 1kHz: < 0.5 deg,1kHz 20 kHz: < 1 deg

Input Multiplier / Divider:3 stages per input channel,8 digits pre decimal, 12 digits postdecimal per stage, configurable ratio orreal number in software.

(4)Speed Input KPH Card Amplitude vs. FrequencyCumulative error:

Frequency dependant amplitude andphase errors added to fixed rangespecifications.Amplitude error vs frequency

+ 1% to (-1.5) % from 0.1Hz to 20kHzPhase error vs frequency(-1.5) to (-2.5) deg from 0 to 2kHz(-2.5) to (-12) deg from 2kHz to 10kHz


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Data CollectionTrigger/Event:

Triggers:Amplitude - any variable, or, perchannel. (amplitude, phase, nX,Direct, Bandpass, Gap, ProcessVariable)Rpm - upper and lower level, per

speed inputTime - User programmable,recurring, scheduledExternal Contact - high or low voltageinput , normally open, normallyclosed logic selectable in software

High Voltage:90 V to 240 V (AC or DC)4 mA Maximum current62 k 2 %(High voltage input to return)

Low Voltage:5 V to 30 V (AC or DC)15 mA Maximum current2.15 k 2 %(Low voltage input to return)

Sampling Events: rpm - 1 rpm to 120k rpm, min 1rpm increments Time - 0.1 sec to 999 hours, 0.1sec increments.16mS minimum event period for allsampling events.

Amplitude programmable,absolute or % change ( not in firstrelease )

Digital Replay KPH/Speed Input Measurements:(6)

When in replay mode, there is no alteration to dynamicsampler data. The following apply to KPH measurements,in addition to standard operational KPH specificationsexcept where noted:

Event Rate = Shaft rpm x Events/rev:

Event Rate Rpm Error Phase Error

1 to 6k +/- < 1 rpm +/- < 1 deg

6k to 30k +/- 4 rpm +/- < 1 deg

30k to 60k +/- 7 rpm +/- 1 deg

60k to 90k +/- 20 rpm +/- 1 deg

90k to 120k +/- 40 rpm +/- 2 deg

120k to 300k N/A +/- 3 deg (typ)

300k to 600k N/A +/- 6 deg (typ)

600k to 900k N/A +/- 8 deg (typ)

900k to 1200k N/A +/- 9 deg (typ)

Amplitude: (sine wave input up to 8 Vpp any full scale range)

Raw Outputs(5)

-AC Error: -1.31% to 0.82%DC Error: 60 mV

Conditioned Outputs(5)-AC Error: -1.45% to 0.79%DC Error: - 0.35 V to +60 mV

(5)Speed Input/KPH Card amplitude cumulative (total) error:

AC Accuracy Speed Input/KPH signal processing isindependent from dynamic data produced by the standarddynamic sampling card. Reprocessing of data from thestandard sampling card is therefore not subject to anyadditional signal processing errors.

(6)Speed Input/KPH cards (16890602) delivered prior to

Nov 2006 will require updating to work properly with theDigital Replay Card.

Physical

Dimensions408 DSPi (L x W x H)36.1 x 41 x 10 cm (14.25 x 16 x 3.8 in)

Power Supply (L x W x H)18.3 x 13.7 x 9.1 cm (7.2 x 5.4 x 3.6 in)

Weight9.5 kg (21 lbs) 408 DSPi @ 32

channels

1.3 kg (3 lbs) Power Supply

Construction408 DSPi

Aluminum Chassis

Cast aluminum front and rearpanels.

Black Powder Coating texturedfinish, indoor/outdoor use.

Environmentally sealed momentary

tactile switches. Bayonet locking external power

connector

EnvironmentalOperating Temperature:408 DSPi and External Power Supply0 C to +50 C (+32 F to +122 F)Note: Rated specifications at fan inlets. Donot block fans during operation, un-obstructed airflow is required.


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Storage Temperature:-30 C to +80 C (-22 F to +176 F)

Relative Humidity0% to 95% non-condensing

Vibration:0.25G @ 5-100Hz operational

3G @ 5-100Hz non-operational

Shock:10G @ 2mS operational & non-operational

Environmental Considerations

The 408 DSPi is designed to meet a broad range ofuse cases and environments. Significant designmeasures have been implemented to provide arobust electrical and mechanical package. Shockisolation mounts are used internally on criticalcomponents and careful attention focused on

reliability of the system including extensive shock,vibration, and temperature exposure. The robustshipping case is designed for transportation andshipment in the most rigorous environments.

The 408 DSPi is a measurement instrument andshould be treated with the appropriate consideration.Exposure to extreme environments will haveconstraints. Direct exposure to condensing liquids,rain, sand, or other particulates that could impairventilation are however, not appropriate. In scenariosthat may exceed environmental specificationscustom solutions can be created to meet specific

needs. If you have any questions regarding anapplication please contact your local Bently Nevadarepresentative,

Input PowerExternal Power Supply:

Input:90/264 Vac, 47/63 Hz auto sensing

Output:+32 Vdc 5% @ 10 A Max+5 Vdc 3% @ 600 mA Max

Surge Protection:Up to 2kV Max

LED Indicators:AC Power readyDC Output enabledFault Latch Detection

Faults:AC supply faultOver/Under output voltage error

Over current detectionThermal protection(Faults are latching and require ACpower cycle to reset)

Approvals: (System)CE Mark

External Power Supply Only:CSA (NRLT/C) Certification (CSA, andUL by CSA, KEMA (Europe) and CB).

CE Mark Directives

EMC Directives 89/336/EEC with amendments

Declaration of Conformity available online -

http://www.bently.com/prod/products/certs/certificates.htm

IEC / EN61000-3-2

Harmonics IEC / EN 61000-3-2/A14: 2000

FlickerIEC / EN 61000-3-3: 1995

IEC / EN61000-6-2

ElectrostaticDischarge

EN 61000-4-2: 1995 Criteria B

Electro-MagneticField

EN 61000-4-3: 1995 Criteria A

Electrical FastTransient

EN 61000-4-4: 1995AC Power, Criteria BSignal Ports, Criteria B

Surge CapabilityEN 61000-4-5: 1995AC Power, Criteria BSignal Ports, Criteria B

RF ConductedEN 61000-4-6: 1996AC Power, Criteria BSignal Ports, Criteria A

Voltage Dips/Interrupt

EN 61000-4-11: 199430% 0.5 Periods, Criteria B60% 5 Periods, Criteria C60% 50 Periods, Criteria C


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IEC / EN61000-6-4

RadiatedEmissions

EN 55011: 1998

ConductedEmissions

EN55011: 1998Low Voltage Directives

IEC / EN 60950: 2001

IEC / EN 61010-1: 2001

USA EMC

CFR 47 FCC

RadiatedEmissions

FCC 15

ConductedEmissions

FCC 15

Ordering Information408 DSPi

168679-AXX-BXX-CXX-DXX-EXX-FXX-GXX-HXX-IXX

(All accessories are ordered as separate line items - *not currentlyavailable )

A: Slot # 1 Option

0 0 Empty Slot0 1 8 Ch Dynamic Sampler Card

0 2 3 Ch Speed Input (KPH) /Trigger Card

B: Slot # 2 Option0 0 Empty Slot

0 1 8 Ch Dynamic Sampler Card


C: Slot # 3 Option0 0 Empty Slot



D: Slot # 4 Option0 0 Empty Slot



E: Slot # 5 Option0 0 Empty Slot

0 1 Digital Replay Card w/o analogoutputs

F: Power Supply Option0 0 None

0 1 90/264 Vac 47/63 Hz0 2 90/264 Vac 47/63 Hz w/dc

backup, auto-switching*

G: Carry Case Option0 0 None

0 1 Hard Shipping Case

0 2 Soft Carry Case*

H: Metrology Certification Option0 0 None

0 1 All Cards

I: Rack Mount Kit Option0 0 None

0 1 with 19 in Rack Mount Kit

Notes: *not currently available

What is included when ordering the 408DSPi (168679):

Qty 3 AC power cords included with the FF Power Supplyoption, qty 1 USA, qty 1 European, and 1 UK standards.

Qty 1 Ethernet Cable Cat5e with ferrite, 3 m (10 ft),required to meet CE certification.

Each Dynamic Sampler or Speed Input (KPH) card includessignal input cables (172068). It is not necessary to orderadditional signal input cables accessories unless more areneeded. Signal input cables can be ordered separately.

Optical/Laser KPH transducer input adapter cables(172262 - 01 and 169714 - 01) are ordered separately.

ADRESxp Software

4080/01-AXX-BXX-CXX-DXX-EXX-FXX-GXX

A: Version0 1 Initial Order

9 8 Update

B: Full Function Client - License Qty0 0 None

0 1 One (1) Client License

0 2 Two (2) Client Licenses

1 0 Ten (10) Client Licenses


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C: Network Viewer Edition - License Qty0 0 None




D: Archive Viewer Edition - License Qty0 0 None




E: Full Client - Media Qty**0 0 None

0 1 One (1) CD-ROM

0 2 Two (2) CD-ROMs

1 0 Ten (10) CD-ROMs

F: Network Viewer Edition - Media Qty**0 0 None

0 1 One (1) CD-ROM

0 2 Two (2) CD-ROMs


G: Archive Viewer Edition - Media Qty**0 0 None

0 1 One (1) CD-ROM

0 2 Two (2) CD-ROMs


**(Media qty must be either (1) or equal to license qty)

ADRE Sxp Technical Support Plan

4080/20-AXX

A: Number of Years0 1 One (1) Year Single License

0 2 Two (2) Years - Single License

0 3 Three (3) Years - Single License

0 4 Four (4) Years - Single License

0 5 Five (5) Years - Single License

Bently Balance Software

3030/01-AXX Multi-Plane Balancing Software(For use with ADRESxp requires BentlyBalance Version 3.1 or later. Pleasecontact your local Bently Nevada Salesrepresentative for additional orderinginformation)

Accessories (Accessories are ordered as separate line items)

168905 - 02 8 Ch Dynamic Sampler Card

168906 - 02 3 Ch Speed Input (KPH) / Trigger Card(requires appropriate adapter cable toconnect optical transducer inputs)

168907 - 02 - BB Digital Replay CardBB: Output Option

00 No Output01 With Analog Output (notcurrently available)

***Speed Input/KPH cards (16890602)delivered prior to Nov 2006 will requireupdating to work properly with the DigitalReplay Card.

172068 Signal Input Cable - SMA to BNC, 3 m(10 ft) required for 168905 02 (or /01),and 168906 02 (or /01). (included witheach Dynamic Sampler - qty 8, andSpeed Input (KPH) card - qty 6)

173887 SMA Push-On Adapter, for SMA to BNCcable 172068. Allows SMA cableconnector to be pushed onto signal input

connector for convenience.

174466 Ethernet Cable Cat5e with ferrite, 3 m(10 ft) - * required to meet CEcertification. (qty 1 included with408DSPi)

169633 408 DSPiHard Shipping Case

169337 408 DSPiExternal Power Supply90/264 Vac 47/63 Hz


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169347 - 01 External Power Supply to 408DSPiExtension Cable, 1.8 m (6 ft). For usewith 169337. Using this cable providesadditional cable length for a total of ~ 3m (10 ft). Convenient for rack mountapplications.

169234 - 01 408 DSPi19 inRack Mount Kit

123135 Velomitor Power Module Kit Providespower and connects up to fourVelomitor transducers.

169714 - 01 Keyphasor input adapter cable (0.5m).Connects laser transducerkits to KPHcard 168906 02 (or /01).

166812 - 01 Laser transducer kit with 2m cable.Includes transducer and extensioncable. Requires adapter cable169714 - 01 to connect to KPH card

168906 02 (or /01).

166813 - 01 Laser transducer kit with 5m cableIncludes transducer and extensioncable. Requires adapter cable169714 - 01 to connect to KPH card168906 - 02 (or /01).

172262 - 01 Optical Keyphasor adapter cable(0.5m). Connects optical pickup10798 - 03 (early style) to KPH card168906 - 02 (or /01).

10798 - 03 Optical pickup sensor (early style) withintegral cable 3m (10ft).

20545 - 25 Optical pickup 7.6m (25 ft) extensioncable (early style). Can be ordered inlengths up to 30 m (99 ft).

20211 - 05 Optical pickup mounting package.Includes mounting pliers, magneticbase, and gooseneck transducerholder.

02290050 Reflective tape roll

02290002 PCMCIA Enhanced Parallel Port cardto support 208 DAIU on computerswithout external EPP port. (required ifusing ADRE Sxp Notebook Computer169849)

174968 Fan vent cover update/replacement kit

176472 European AC Power Cord250V 2.5m

102357 - 01 Field Connection Kit includes:

10 BNC receptacle to double banana plug

4 BNC receptacle to alligator test clip

4 BNC T-connector

10 BNC 90 connector

10 BNC receptacle to single banana plug

4 BNC receptacle to double banana plug

10 Single binding post to BNC plug

10 Banana jack to alligator clip

4 Double binding post to BNC plug

6 BNC union

10 1.8 m (72 in) BNC coaxial cable

5 1.8 m (72 in) banana cable - Black

5 1.8 m (72 in) banana cable - Red

5 1.8 m (72 in) banana cable - Yellow

5 1.8 m (72 in) banana cable - Green

5 1.8 m (72 in) banana cable Blue


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Minimum Computer Requirements

ADRESxp software will run on most computer systems,desktop or notebook, providing minimum specifications aremet. Minimum computer requirements are provided,however system performance and the ability to reachmaximum specifications associated with software operationand usability will be impacted. The recommended

computer specifications must be followed to obtain fullcapabilities of the system.

1Ghz Processor

512MB RAM

40 GB HDD (100MB Free Space)

CD-ROM

100 Mb Ethernet

800x600 SVGA

Recommended Computer Specifications

2.4Ghz or faster , P4 or Xeon

1.6Ghz or faster, Pentium M (notebooks)

2 GB RAM

60-80 GB HDD

DVDRW

1000/100 Mb Ethernet

SXGA 64MB VRAM

ADRE Sxp Notebook Computer

169849 High Performance Notebook Computer

This computer can also be used with ADREforWindows software and the 208DAIU. Connectionto the 208DAIU is supported using the SPP-100PCMCIA card ( 02290002 ). This computer does

not have an external parallel port. 2.0Ghz (or higher) Processor

2 GB RAM (or higher)

60 GB (or higher) HDD

DVDRW

1000/100 Mb Ethernet

802.11 a/b/g WLAN w/Bluetooth

USB 2.0 (or higher)

SXGA 64MB VRAM

56K Fax/Modem

Windows XP Pro

Soft Carry Case

Computer Peripherals

Selection of additional external peripherals should beevaluated on a case-by-case basis. User needs can bevery different and therefore generic solutions are notrecommended. Peripherals such as printers, externalhard drives, monitors, or other devices can be providedto best meet your needs. Please provide your BentlyNevada representative with specific requirements.

Operating System Requirements

ADRESxp software is designed to run and fully tested onMicrosoft WindowsXP (Service Pack 2). ADRESxpsoftware can be installed on Microsoft Windows2000.ADRESxp software can not be installed on earlierversions of Microsoft Windows operating systems suchas Windows 95/98/NT.

Networking Requirements

ADRESxp software requires an available Ethernet portwith TCP/IP protocol support to communicate with the 408DSPi. A 1000 Mb (GB) Ethernet port is required for the408 DSPi to meet full performance specifications. Undertypical conditions with only one or two clients accessingthe 408 DSPi, 100MB Ethernet will provide excellentperformance. Bandwidth sharing on any network,depending on traffic is always a consideration and willaffect network performance. Ensure that all networkinghardware is installed and configured according to yournetwork administrators specifications.

Database Access and Storage

The 408 DSPi can store up to 130 GB of data internally.For applications that may need significantly more storagecapacity, an external rack mounted drive array can also beadded. Permanent installations, test stands, or very longterm storage of raw streamed data can easily besupported with an external drive array.

All data on the 408 DSPi can be viewed by ADRESxpsoftware thereby minimizing the need to move largedatasets over the network. Databases can be moved to aclient computer in their entirety or just the portion that is

needed. Moving large databases over a network canconsume significant bandwidth and affect networkperformance. A dedicated or high bandwidth network ishighly recommended, or, a local (direct) connectionbetween the 408 DSPi and the ADRESxp clientcomputer.


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Network and Archive Viewer Edition Software

There are two "Viewer Edition" options for ADRE Sxpdesigned specifically to meet use case scenarios that donot require active control or configuration of a 408 DSPi.All versions of ADRE Sxp can read all ADRE forWindows databases.

Network Viewer Edition - The Network Viewer provides auser the ability to "connect to a 408" and viewlive dataor any archived data on the 408. This is needed if userswish to view live data, participate in a live test, etc. Thenetwork viewer can also view all archived data, eitherlocally, or on the 408. This option is intended forapplication where remote participation in data collectionor viewing of live data is needed as well as viewing ofarchive data locally.

Archive Viewer Edition The Archive Viewer software isintended when support from other personnel is needed,typically from a corporate support team, or consultant. Insuch cases, support personnel will not actually be

configuring or collecting live data from the 408. Oncedata has been archived and moved from the 408, allviewing features and data manipulation capability isprovided. The Archive Viewer provides the ability to opendatabases only after they have been archived andmoved to another computer or placed on storage media.The Archive Viewer is not able to connect to a 408 at all.

Display Plots/Formats

The following plots can be selected from stored data.Display can be configured to show only the applicableplots for any given application package.

Current Values

Tabular List

Orbit / Timebase(w/ superposition of overlay)

Orbit (w/ superposition of overlay)

Timebase (w/ superposition of overlay)

Continuous Raw Timebase (w/multi decimation)

Polar (w/ Forward & Reverse Vector transforms)

Bode (w/ Forward & Reverse Vector transforms,coming soon)

Shaft Centerline (Average andInstantaneousposition & Orbit Overlay)

X vs. Y

Trend / Multivariable Trend

Spectrum / Full Spectrum

Waterfall / Full Waterfall (w/ Campbell format)

Cascade / Full Cascade (w/ Campbell format)

System Event List

ADRE for Windows / 208 DAIU support

ADRESxp software provides complete support forexisting ADREfor Windows databases. This allows usersto continue using existing ADREfor Windows systems asneeded while sharing data with those running ADRESxpsoftware. Although ADRESxp does not communicatedirectly with the 208 DAIU, ADREfor Windows software

can run on the same computer as ADRE

Sxp. Manynotebook computer systems no longer have an EPP port(Enhanced Parallel Port) necessary to communicate withthe 208 DAIU. For many notebook computers, thePCMCIA EPP card (02290002) can provide the requiredinterface. In some instances, a port replicator or dockingstation may provide such connectivity. Contact your localBently Nevada technical support representative for detailsspecific to your needs.

ADRE Sxp Client Versions Full

Function

Network

Viewer

Archive

Viewer

Functionality

View historical data on localcomputer

View historical data stored onnetwork server/drive

Import and view ADRE forWindows data

Configure, save, and view plotsand plot sessions

Build 408 Configurations

View Configurations

Connect to 408

View Real-time Data on 408

Upload Configurations to 408

Download data from 408 tolocal computer

View Network Settings on 408

408DSPi Control & Operation

Enter & Exit Store Enable

Manual Sample

Control Triggering

On-the-fly ConfigurationChanges

Set Active

Database/Configuration

Modify System Properties

Update/Service 408

408 Diagnostics

Configure Network Settings


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Multi-Plane Balancing Software

Bently BALANCE software (3030/01) is designedspecifically to integrate with your ADRE system. ADRESxp databases can be imported directly into BentlyBALANCE V3.1 (and later) providing analysis and acomprehensive solution for your most challengingbalancing needs. You can also import/export data

directly from/to spreadsheets into Bently BALANCEadding great flexibility to your balancing program. BentlyBALANCE includes powerful optimization tools,multiple sets of influence vectors, multiple what-ifsolutions, all while viewing graphical results on plots andweight maps. Bently BALANCE is a powerful part ofyour total diagnostic and maintenance program. Contactyour local Bently Nevada representative for more details.

Software Licensing

ADRESxp software is available as a single computerlicense. A separate license is required for eachinstallation of this product on a different computer.

Contact your local Sales or Service Representative topurchase or discuss site or enterprise licensingrequirements.

Software Technical Support Agreement

The Software Technical Support Agreement allows youto contact the Bently Nevada Corporate Product Servicedepartment for assistance at any time during theselected period of coverage. The support agreementperiod begins with your initial request for assistance, firstsoftware update, or three months after your order,whichever comes first.

In addition to E-mail, Fax, and telephone support, the

Support Agreement provides free software updates as

well as updates via the Internet. Your Technical SupportAgreement insures that you have access to the mostcurrent version of software with all the latestenhancements. Technical support plans are available forsingle and enterprise wide installation of Bently Nevadasoftware products. Contact your local Bently Nevadarepresentative for details specific to your needs.

Registration for ADRESxp Technical SupportRegistration of the ADRESxp software product is the onlyway to activate your Technical Support Agreement. Pleasecontact your local Bently Nevada Technical Supportrepresentative or visit us on-line for details specific toproduct registration.

Training Programs

Training is essential to insure users are able to realize fullvalue from their tools in the most efficient manner. BentlyNevada can provide training to meet your needs. Trainingspecific to ADRESxp and the 408 DSPi can be providedat your facility or at one of many Bently Nevada Training

Centers located around the world. Contact your localBently Nevada representative for details specific to yourneeds.

Documentation (Can be ordered separately)

176559-01 ADRE Quick Start Guide

172179 ADRE Sxp / 408 DSPi Datasheet

172937-01 ADRE Sxp Training Course Manual


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2005-2007 General Electric Company. All rights reserved.ADRE, Bently BALANCE, Keyphasor, and

System 1are trademarks of General Electric Company in the United States and other countries.

Microsoft, Windows 2000 and Windows XP are registered trademarks of Microsoft Corporation in the United States and/or other countries.

408 DSPi with O tical KPH and Laser Tachometer s eed in ut transducers.

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