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We found 122 matches....

Model: 482C05

Model: 482C05

Platinum Stock Products; 4-channel, line-powered, ICP^® sensor signal cond., unity gain, BNC input/output conn.

DC Power: <0.25 Amps

Product Datasheet

Model: 482C15

Model: 482C15

Platinum Stock Product; 4-channel, Line-powered, ICP^® sensor signal cond., Internal jumper selectable gain x1, x10, x100

DC Power: <0.25 Amps

Product Datasheet

Model: 691C46/691068

Model: 691C46/691068

48 CHANNEL SWITCH BOX with 48 PGME07 and 4 PGME21 cord grips

Channels: 48
Housing Material: Fiberglass
Enclosure Rating: Nema 4X(IP66)

Product Datasheet

Model: 480C02

Model: 480C02

Platinum Stock Products; 1-channel, battery-powered, ICP^® sensor signal cond., unity gain, BNC input/output conn.

Channels: 1

Product Datasheet

Model: 426A14

Model: 426A14

Patented preamplifier phantom powered 48 V for prepolarized microphones, XLR conn

Nominal Microphone Diameter: 1/4 in or 1/2 in
Temperature Range: (Operating) -40 to +149 °F(-40 to +65 °C)
Output Voltage: ±10 Vpk
Size - Length: 6.50 in(165.1 mm)

Product Datasheet

Model: CCS047

Model: CCS047

Hard shell case for HVM200 and accessories (38 x 48 x 18 cm)

Product Datasheet

Model: CCS052

Model: CCS052

Canvas bag with zipper and handles. 19 x 9 x 6 in (48 x 23 x 15 cm)

Product Datasheet

Model: 691B46/691060

Model: 691B46/691060

Switch box with switched outputs, 16" x 14" x 8" NEMA 4X (IP66) fiberglass enc, 48 channels, terminal strip input, vib & temp BNC jack output, 48 PGME07 cord grips

Channels: 48
Housing Material: Fiberglass
Enclosure Rating: Nema 4X(IP66)

Product Datasheet

Model: 055EC048BZ

Model: 055EC048BZ

2-socket high temperature connector w/environmental boot, SS ring, & adaptor (MIL-C-5015 compatible) to Blunt cut cable with 48 feet of High temperature, PTFE jacket

Product Datasheet

Model: 691C46

Model: 691C46

Switch box with switched & continuous outputs, 20" x 16" x 10" NEMA 4X (IP66) fiberglass enclosure, 48 channels, terminal strip input, vib & temp jack and two-pin MIL connector outputs, no connection ports

Channels: 48
Housing Material: Fiberglass
Enclosure Rating: Nema 4X(IP66)

Product Datasheet

Outline drawing for EX648A11

Outline drawing for EX648A11

Cable outline/schematic drawing

Outline drawing for TEST-481A

Outline drawing for TEST-481A

Cable outline/schematic drawing

Outline drawing for TEST-481A

Outline drawing for TEST-481A

Cable outline/schematic drawing

Outline drawing for TEST-481A

Outline drawing for TEST-481A

Cable outline/schematic drawing

Outline drawing for TEST-481A

Outline drawing for TEST-481A

Cable outline/schematic drawing

Model: 480B21

Model: 480B21

3-channel, battery-powered, ICP^® sensor signal cond., gain x1, x10, x100, BNC input/output conn.

Channels: 3

Product Datasheet

Model: 480E09

Model: 480E09

1-Channel, battery-powered, ICP^® sensor signal conditioner, gain x1, x10, x100, 2mA, BNC input/output connectors.

Channels: 1

Product Datasheet

Model: 482B11

Model: 482B11

1-channel, line-powered, ICP^® sensor signal cond., gain x1, x10, x100, BNC input/output conn.

Channels: 1
Voltage Gain: (±1%) x1 x10 x100

Product Datasheet

Model: 482C16

Model: 482C16

4-channel, line-powered, ICP^® sensor signal cond., incremental gain x0.1 to x200, RS-232

Frequency Range: (x100 to x200 Gain)(-5%) 0.05 to 50000 Hz
DC Power: +9 to +18 VDC

Product Datasheet

Model: 482C27

Model: 482C27

4-channel, line-powered, bridge/differential/ICP^® sensor signal cond., incremental gain, Autozero, RS-232, Ethernet

Frequency Range: (â‰¥100 Gain)(-5%) 0.05 to 50000 Hz
DC Power: <=2.5 Amps

Product Datasheet

Model: 482C54

Model: 482C54

4-channel, line-powered, ICP^®/charge sensor signal cond., incremental gain, selectable charge conversion, TEDS, 10k LPF, RS-232

Frequency Range: (x100 to x200 Gain)(-5%) 0.05 to 75000 Hz
DC Power: +9 to +18 VDC

Product Datasheet

Model: 482C64

Model: 482C64

4-channel, line-powered, ICP^®/charge sensor signal cond., incremental gain, selectable charge conversion, TEDS, 10k LPF, RS-232, Ethernet

Frequency Range: (x100 to x200 Gain)(-5%) 0.05 to 75000 Hz
DC Power: +9 to +18 VDC

Product Datasheet

Model: 483C05

Model: 483C05

8-channel, line-powered, ICP^® sensor signal cond., unity gain, BNC input/output conn., rack mount

Sensor Input Type(s): ICP®
Channels: 8
Power Required: AC Power

Product Datasheet

Model: 483C15

Model: 483C15

8-channel, line-powered, ICP^® sensor signal cond., internal jumper selectable gain x1, x10, x100, rack mount

Sensor Input Type(s): ICP®, Voltage
Channels: 8
Voltage Gain: (at 500 Hz)(±1%) x1, x10, x100
Power Required: AC Power

Product Datasheet

Model: 483C28

Model: 483C28

8-channel, line-powered, bridge/differential/ICP^® sensor signal cond., incremental gain, Autozero, Ethernet

Frequency Range: (â‰¥100 Gain)(-5%) 0.05 to 50000 Hz

Product Datasheet

Model: 483C30

Model: 483C30

8-channel, line-powered, ICP^®/charge sensor signal cond., gain, Ethernet, ext. cal., selectable input ground isolation

Product Datasheet

Model: 483C40

Model: 483C40

8-channel, line-powered, ICP^®/charge sensor signal cond., gain, selectable LPF, Ethernet

Sensor Input Type(s): ICP®, Voltage, Charge
Channels: 8
TEDS Sensor Support: Yes
Power Required: (direct input to unit) AC Power

Product Datasheet

Model: 483C41

Model: 483C41

8-channel, line-powered, ICP^®/charge sensor signal cond., gain, selectable LPF, Ethernet, keypad/display

Sensor Input Type(s): ICP®, Voltage, Charge
Channels: 8
TEDS Sensor Support: Yes
Power Required: (direct input to unit) AC Power

Product Datasheet

Model: 483C50

Model: 483C50

8-channel, line-powered, ICP^® sensor signal cond., x0.1 to x200 gain, TEDS, Ethernet

Sensor Input Type(s): ICP®, Voltage
Channels: 8
Voltage Gain: x0.1 to x200
TEDS Sensor Support: Yes
Power Required: (direct input to unit) AC Power

Product Datasheet

Model: 484B06

Model: 484B06

1-channel, line-powered, ICP^® sensor signal cond., AC/DC coupling, BNC input/output conn.

Product Datasheet

Model: 488B04

Model: 488B04

Universal AC power adapter, 100-240 VAC/ 50-60 Hz input, 33 VDC output, 5-pin DIN (for models 482C05 and 482C15), line cord

Output Voltage: 32 - 38 VDC
Output Current: 0.54 Amps

Product Datasheet

Model: 488B07

Model: 488B07

DC power pack (for use with the 482A21/A22 and 482C05/C15)

Product Datasheet

Model: 488B10

Model: 488B10

Universal AC power adapter, 100-240 VAC/ 50-60 Hz input, 33 VDC output, 6-pin mini DIN (for models 480B21), line cord

Output Voltage: 32 - 38 VDC
Output Current: 0.54 Amps

Product Datasheet

Model: 482A21

Model: 482A21

1-channel, line-powered, ICP^® sensor signal cond., unity gain, BNC input/output conn.

DC Power: +32 to 38 VDC

Product Datasheet

Model: 482C24

Model: 482C24

4-channel, line powered, ICP^® sensor signal cond., AC/DC coupling, gain x0.1 to x200

Frequency Range: (x100 to x200 Gain)(-5%) 0.05 to 50000 Hz
DC Power: +9 to +18 VDC

Product Datasheet

Model: 485B36

Model: 485B36

2-channel, USB-powered, ICP^® signal conditioner, unity gain

Channels: 2

Product Datasheet

Model: 485B39

Model: 485B39

2-channel, USB-powered, ICP^® sensor signal conditioner with USB digital output (24-bit A/D)

Frequency Range: (±5%) 0.8 to 20700 Hz(0.8 to 20700 Hz)
Internal ADC: 24-bit
Digital Output: (Interface) USB class 1 audio
DC Power: (USB) <500 mW (5V at <100 mA)

Product Datasheet

Model: 485B39-CAL

Model: 485B39-CAL

Calibration of a 2-channel, USB-powered, sensor signal conditioner. NIST traceable

Product Datasheet

Model: 485M49

Model: 485M49

Airborne Amplifier, 3-Channel, +28 VDC aircraft powered, for use with ICP^® triaxial accelerometers

Product Datasheet

ICP (Up to 325 F) | PCB Piezotronics

ICP (Up to 325 F) | PCB Piezotronics

IMI Sensors is the industry leader in high temperature ICP® accelerometers used by predictive maintenance departments

Precision 2-Pin MIL Connector | PCB Piezotronics

Precision 2-Pin MIL Connector | PCB Piezotronics

2 pin mil connects with precision icp for your industrial sensors

Precision Integral Cable | PCB Piezotronics

Precision Integral Cable | PCB Piezotronics

Integral cables for your precision icp accelerometers

Precision Armored Cable | PCB Piezotronics

Precision Armored Cable | PCB Piezotronics

Armored cables for precision icp

High Frequency Industrial Accelerometers | PCB Piezotronics

High Frequency Industrial Accelerometers | PCB Piezotronics

Accelerometers for monitoring high-speed rotating equipment.

Precision Industrial Accelerometers | PCB Piezotronics

Precision Industrial Accelerometers | PCB Piezotronics

Industrial accelerometers for route-based condition monitoring and predictive maintenance.

PCB Piezotronics, Inc. Launches Subminiature ICP Pressure Sensors | PCB Piezotronics

PCB Piezotronics, Inc. Launches Subminiature ICP Pressure Sensors | PCB Piezotronics

ed by 48% over models with connectors, allowing it to be installed into strategic locations where unsteady pressure fluctuations and cavitation occur. For example, around impellers, propellers, or fluid jets. Providing dynamic measurement from full vacuum to 100 psi (690 kPa), it also has applicatio

PCB Piezotronics, Inc. Launches New Line of Field-Configurable Multi-Channel Switch Boxes | PCB Piezotronics

PCB Piezotronics, Inc. Launches New Line of Field-Configurable Multi-Channel Switch Boxes | PCB Piezotronics

1C46: 48 channels The physical IP66 enclosure used for all four models is the same and can accommodate from one to four twelve-channel boards. Boards (Model 691C40) can be purchased separately for field installation into empty sections of existing boxes. The product line’s new features exped

wpl_25_torque_sensors.pdf

wpl_25_torque_sensors.pdf

en-US W r i t t en B y en en-US Ke n n e t h W a t k in s en-US T o r

Multi-Axis Accelerometers | PCB Piezotronics

Multi-Axis Accelerometers | PCB Piezotronics

Accelerometers that measure vibration in two or three planes of motion.

Torque Sensors

Torque Sensors

An Overview of their Design and Application

What's wrong with my Piezoelectric Accelerometer?

What's wrong with my Piezoelectric Accelerometer?

INTRODUCTION: A frequently asked question about measurements made with piezoelectric (PE) vibration sensors is related to the measurement parameters. After completing a test and evaluating data, test engineers may observe obvious signs of problems within the data that was collected. Many factors can affect the data from a PE accelerometer including measurement range, the measurand input amplitude, the measurand input frequency content, and the data acquisition sample rate. For example, input am

Paper Machine Sensors | PCB Piezotronics

Paper Machine Sensors | PCB Piezotronics

Vibration sensors built to survive hot, wet, and debris filled environments.

Sensors for Monitoring Machine Tool Spindles | PCB Piezotronics

Sensors for Monitoring Machine Tool Spindles | PCB Piezotronics

Sensors for Monitoring Machine Tool Spindles

Monitor Steel Rolling and Annealing | PCB Piezotronics

Monitor Steel Rolling and Annealing | PCB Piezotronics

IMI Sensors offers a wide variety of vibration sensors, accelerometers, transducers, and related accessories to monitor vibration.

Mining Equipment Monitoring | PCB Piezotronics

Mining Equipment Monitoring | PCB Piezotronics

Mining operation involves a variety of heavy rotating machinery that is used for exploration and processing of precious metals.

Predictive Maintenance | PCB Piezotronics

Predictive Maintenance | PCB Piezotronics

Predictive Maintenance is a process by which a maintenance technician is alerted to a problem developing in a critical production machine.

Instrumentation for High Temp Environments | PCB Piezotronics

Instrumentation for High Temp Environments | PCB Piezotronics

Instrumentation for High Temperature Environments Accelerometers and pressure sensors for demanding measurement & monitoring requirements

wpl_79_pdm.pdf

wpl_79_pdm.pdf

en-US W r i t t en B y en en-US D a v i d A . C o r e l l i , C a t e g

Managing Machinery Assets Using Predictive Maintenance

Managing Machinery Assets Using Predictive Maintenance

A Manager’s Overview

pd2048-supplier-scorecard-guidelines.pdf

pd2048-supplier-scorecard-guidelines.pdf

Us e r G ui de : Su p p lier Sc or ec a r d G u i d

High Temperature Industrial Accelerometers | PCB Piezotronics

High Temperature Industrial Accelerometers | PCB Piezotronics

Industrial Sensors for installations at elevated temperatures.

Food and Beverage Industry Sensors | PCB Piezotronics

Food and Beverage Industry Sensors | PCB Piezotronics

Vibration monitoring is an integral part of a predictive maintenance program in food and beverage production.

m920-01fda.pdf

m920-01fda.pdf

PCB Load & Torque, Inc. Model 920 Portable Digital Transducer Instrument Operating In

edv-ds-7264b-022421.pdf

edv-ds-7264b-022421.pdf

K e y f ea t u r e s þÿ Q M e c h a n i c al o v e r t r a v e

Portable Digital Transducer Instrument Instructions

Portable Digital Transducer Instrument Instructions

MI 48 3 3 5 US A Tol l - Fr ee i n th e U SA 8 88- 68 4- 289 4 Fax:7 1 6- 684- 0 987 E m a il:rsin fo @p cb loa d t o rq ue .com www.p c b l o a d t o r que . co m ISO9 001C er ti fi ed A2 LA Accr e

International Distributors | PCB Piezotronics

International Distributors | PCB Piezotronics

Find a distributor or sales office.

imi-swc-enclosures_lowres.pdf

imi-swc-enclosures_lowres.pdf

en-US E N CLO S U R E S en-US p c b . c o m / e n c l o s u r e s | 1 8

Enclosures

Enclosures

1 .48 [3 7. 5] 2. 22 [5 6.4 ] 2. 82 [7 1. 7] CABLE GRIP 1 1 2 2 A A B B COD E ID EN T. NO. 5 26 81 D WG. NO. S C ALE: SH EET D RA WN C H E CKED ENGINE ER TITLE U NL E S S OT H ER W I SE S P E CI FI ED TO LE RA N C E S

tm-vib-ex356a73_lowres.pdf

tm-vib-ex356a73_lowres.pdf

en-US p c b . c o m | 1 8 0 0 8 2 8 8 8 4 0 en-US MODEL en-US EX356A73 en-US TR

imi-trm-dintransmitters_lowres.pdf

imi-trm-dintransmitters_lowres.pdf

en-US D IN R A IL M OU N T en-US V I B R A T ION en-US T R A N S MI

tm-vib-ex356a73_lowres.pdf

tm-vib-ex356a73_lowres.pdf

en-US p c b . c o m | 1 8 0 0 8 2 8 8 8 4 0 en-US MODEL en-US EX356A73 en-US TR

edv-ds-7284a_lowres.pdf

edv-ds-7284a_lowres.pdf

en-US K e y f ea t u r e s en-US þÿ en-US n en-US 2 K , 2 0 K a n d 6 0

Very High Temperature Triaxial Charge Mode Accelerometer With UHT-12™ Element

Very High Temperature Triaxial Charge Mode Accelerometer With UHT-12™ Element

NG 48 0 07 1. 35 [3 4. 3] 1 . 0 5 [ 26. 7 ] 1 . 3 5 [3 4. 3] 1.05 [26 .7 ] 2X P . 180 THR U . 77 [1 9. 5] 1.00 [25 . 4] . 50 [1 2. 7] en-US SPECIFICA TIONS en-US Model Number en-US EX356A73 en-US Performance en-US Sensitivity (±

DIN Rail Mount Vibration Transmitters

DIN Rail Mount Vibration Transmitters

DIN Rail Mount Vibration Transmitters

imi-vib-633a01_lowres.pdf

imi-vib-633a01_lowres.pdf

en-US MODEL en-US 633A01 en-US USB DIGITAL en-US ACCELEROMETER en-US en-US Q en-US

ad-132b38_lowres.pdf

ad-132b38_lowres.pdf

en-US p c b . c o m | 1 8 0 0 8 2 8 8 8 4 0 en-US MODEL en-US 132B38 en-US M I

imi-trm-420ma_lowres.pdf

imi-trm-420ma_lowres.pdf

en-US 4 -2 0 en-US m en-US A en-US T R A N S MI T T E R S en-US p c b .

Micro ICP® Pressure Sensor

Micro ICP^® Pressure Sensor

Micro ICP® Pressure Sensor

4-20 mA Transmitters

4-20 mA Transmitters

.48 [12.2] 1.5 [38.1] 8 en-US T R A N S MI T T E R W I T H R M S en-US en-US VE L O C I T Y O UTP UT en-US SPECIFICA TIONS en-US Model Number en-US 641B00 en-US 641B01 en-US 641B02 en-US Performance en-US 0HDVXUHPHQW5DQJH

n-US 48, 44.1, 32, 22.05, 16, 11.025, 8.0 kHz en-US Physical en-US Sensing Element en-US Ceramic en-US Sensing Geometr y en-US Shear en-US Housing Material en-US Stainless Steel en-US Sealing en-US W elded Hermetic en-US Mounting Thread en-US 1/4-28 UNF en-US Mounting T o

pcb_stc_lowres.pdf

pcb_stc_lowres.pdf

% # % % ' # ( ' '

Sensor Technologies & Instrumentation

Sensor Technologies & Instrumentation

Sensors for Acceleration, Acoustics, Force, Load, Pressure, Shock, Strain, Torque & Vibration

edv-ds-7274a.pdf

edv-ds-7274a.pdf

en-US K e y f ea t u r e s en-US þÿ en-US n en-US 2 K , 6 K , 2 0 K a n

imi-vib-multiaxis_lowres.pdf

imi-vib-multiaxis_lowres.pdf

en-US MUL T I - A X I S I C P en-US ® en-US en-US A C CE L ER O M E T E

Multi Axis

Multi Axis

Multi Axis

3p03218condensedreport.pdf

3p03218condensedreport.pdf

R EP O RT is s u e d b y a S w e d is h N a tio n a l L a b o ra

imi-vib-chargemode_lowres.pdf

imi-vib-chargemode_lowres.pdf

en-US C H A R GE M O DE en-US A C CE L ER O M E T ER S en-US p c b . c

Charge Mode Accelerometers

Charge Mode Accelerometers

Charge Mode Accelerometers

Side-by-Side Microphone Test Results

Side-by-Side Microphone Test Results

3rd Party Competitive Test Results

wpl_41_pcb_app_note_probemic.pdf

wpl_41_pcb_app_note_probemic.pdf

en-US W r i t t en B y en en-US D r . A nd r e w R . B a r n a r d , I N

wpl_3_auto_durability.pdf

wpl_3_auto_durability.pdf

en-US A u to m o t i v e Co m p o n e n t en-US D u r a b i l i t y

Using Probe Microphones For Nearfield Acoustic Holography Measurements of a Carbon Nanotube Speaker

Using Probe Microphones For Nearfield Acoustic Holography Measurements of a Carbon Nanotube Speaker

0 - 48 dB ( r e 1µm / s ) . S our c e v el o c i t y v er s us f r equ enc y T he s ou r c e pres s ure ob tai ne d thro ug h N A H c an b e us ed to r ec on s tr uc t th e pres s ure at an y

Automotive Component Durability Testing

Automotive Component Durability Testing

Using Quartz PiezoelectricForce Sensors

tm-ac-catalog_lowres.pdf

tm-ac-catalog_lowres.pdf

en-US ACO U S T I C en-US ME A S U R E ME N T en-US S E N S ORS &

tm_ac_catalog_lowres.pdf

tm_ac_catalog_lowres.pdf

en-US ACO U S T I C en-US ME A S U R E ME N T en-US S E N S ORS &

Acoustic Measurement Sensors & Instrumentation (Brochure)

Acoustic Measurement Sensors & Instrumentation (Brochure)

For Precise Sound Measurements

Acoustic Measurement Sensors & Instrumentation (Brochure)

Acoustic Measurement Sensors & Instrumentation (Brochure)

For Precise Sound Measurements

rs_model 962_60809-nr.pdf

rs_model 962_60809-nr.pdf

M O D E L 9 6 2 T R A N S I E N T R E C O R D E R I N S T R U

Transient Recorder Instruction Module

Transient Recorder Instruction Module

I Q q 48 0 0 1 1516 3467 cm BI /W 48 /H 1 /BPC 8 /CS /RGB ID FFF ,,,hhh EI Q q 48 0 0 1 1620 3467 cm BI /W 48 /H 1 /BPC 8 /CS /RGB ID GGG

wpl_60_pyroshock.pdf

wpl_60_pyroshock.pdf

en-US W r i t t en B y en en-US A n t h o n y A g n e l lo & R o b e r

EVALUATION OF ACCELEROMETERS FOR PYROSHOCK PERFORMANCE IN A HARSH FIELD ENVIRONMENT

EVALUATION OF ACCELEROMETERS FOR PYROSHOCK PERFORMANCE IN A HARSH FIELD ENVIRONMENT

EVALUATION OF ACCELEROMETERS FOR PYROSHOCK PERFORMANCE IN A HARSH FIELD ENVIRONMENT

wpl_31__soundpower_whitepaper.pdf

wpl_31__soundpower_whitepaper.pdf

en-US W r i t t en B y en en-US A nd r e w R . B a r n a r d , Ph . D .

Acoustic- Quick Reference Guide

Acoustic- Quick Reference Guide

Acoustic- Quick Reference Guide

Quantifying Acoustic SourcesThrough Sound Power Measurements

Quantifying Acoustic SourcesThrough Sound Power Measurements

6+ %48 * ) ! ) (' 0 ! ' 0 3 + 0 ! - / 0 .! 3 ! 2* 9 / 5 * ! 0 .3 0 ! 1 * &* + 3 0 * ' ! ' %(&2! - 3 9 * ' !? ' % ( + 5 * @ 7 != . * !' % ( + 5 * !/ ' !0 . * & !5 % & & * 5

md-0428-revnr-(threaded-fastener-design-and-analysis-white-paper).pdf

md-0428-revnr-(threaded-fastener-design-and-analysis-white-paper).pdf

p c b . c o m / f a s t e n e r - t e c h | 1 8 0 0 8 2 8 8 8 4 0 T H

Engineering Fundamentals

Engineering Fundamentals

of Threaded Fastener Design and Analysis

wpl_46_magnet mounting techniques for machinery vibration monitoring.pdf

wpl_46_magnet mounting techniques for machinery vibration monitoring.pdf

en-US W r i t t en B y en en-US Gen e B r a d b u r y , P r a x a i r T

wpl_33_28th_spsimcon_pcb.pdf

wpl_33_28th_spsimcon_pcb.pdf

en-US W r i t t en B y en en-US B o b M e t z , P C B Pi e z o tr o n i

wpl_88_forcelinkstiffness.pdf

wpl_88_forcelinkstiffness.pdf

en-US W r i t t en B y en en-US D a v i d O r t , M e l i s s a M a z e

Magnet Mounting Techniques for Machinery Vibration Monitoring

Magnet Mounting Techniques for Machinery Vibration Monitoring

Overview of a case study where magnet-mounting techniques for accelerometers allowed an industrial manufacturing giant to institute a company-wide vibration data acquisition and analysis system that monitors machinery health at several hundred facilities worldwide.

Optimizing 3-Component Force Sensor Installation for Satellite Force Limited Vibration Testing

Optimizing 3-Component Force Sensor Installation for Satellite Force Limited Vibration Testing

2. 48 2. 86 13% 4 x 9. 91 9. 93 0% y 9. 76 9. 82 1% z 2. 47 2. 86 14% It h a s l o n g be e n s t a t e d i n S e c t i on 4.4 of N A S A - H D BK - 7004C th a t ,

Force Link Stiffness White Paper

Force Link Stiffness White Paper

Force Link Stiffness White Paper

acoustic_array_technique_(sae95).pdf

acoustic_array_technique_(sae95).pdf

From the Proceedi ngs of the SAE Noise and Vibration C onference, Vol 2, p p 1023-1 035, T

Source Identification Using Acoustic Array Techniques

Source Identification Using Acoustic Array Techniques

From the Proceedings of the SAE Noise and Vibration Conference, Vol 2, pp 1023-1035, Traverse City, MI, May 1995.

testandmeasurementcatalog.pdf

testandmeasurementcatalog.pdf

en-US T E S T & ME A S U R E ME N T en-US S E N S ORS A N D en-US

Test & Measurement Sensors & Instrumentation

Test & Measurement Sensors & Instrumentation

Acceleration & Vibration, Acoustics, Pressure, Force, Load, Strain, Shock, & Torque

pcb-testshortform_lowres.pdf

pcb-testshortform_lowres.pdf

en-US S E N S ORS en-US en-US F O R R E SE A R CH en-US en-US & D

n-US 48 en-US Cables & Connectors en-US þÿ. ............................................................................................................................... .. en-US 51 4 en-US A ERO S P A C E & D E F E N S E en-US 3 & %

wpl_85_memsshockimpedance.pdf

wpl_85_memsshockimpedance.pdf

en-US W r i t t en B y en en-US P a tr i ck L . W a l t e r , P C B Pi e

MEMS Shock Accelerometers

MEMS Shock Accelerometers

MEMS Shock Accelerometers

imicat_lowres.pdf

imicat_lowres.pdf

& 7 0 4 / # $ # / 4 # ' & & 0 ' / 0 9 # 4 !

Industrial Vibration Sensors Switches Instrumentation

Industrial Vibration Sensors Switches Instrumentation

Industrial Vibration Sensors Switches Instrumentation

About PCB^®

PCB^® manufactures sensors used by design engineers and predictive maintenance professionals to test and measure vibration, pressure, force, acoustics, load, and shock in research and development as well as industrial applications.

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Depew, NY 14043

Sensorline^SM
+1 716-684-0001

+1 800-828-8840

3425 Walden Avenue
Depew, NY 14043

Sensorline^SM
716.684.0001

info@pcb.com

+1 800-828-8840

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Depew, NY 14043

Sensorline^SM
716.684.0001

info@pcb.com

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^© In the interest of constant product improvement, specifications are subject to change without notice. PCB®, ICP®, Swiveler®, Modally Tuned®, and IMI® with associated logo are registered trademarks of PCB Piezotronics, Inc. in the United States. ICP® is a registered trademark of PCB Piezotronics Europe GmbH in Germany and other countries. SensorLineSM is a service mark of PCB Piezotronics, Inc.