Search Results for very low temperature rtv
Model 132B38 Micro ICP® pressure sensor, 140 mV/psi, integral ... - PCB
and provide very high-frequency response. These micro-integrated circuit amplifiers convert the high-impedance voltage from the crystals into low-impedance voltage of less than 100 ohms. Output from the microsensors may be coupled directly into oscilloscopes, recorders and A to D converters.
Introduction to Air Blast Measurements - Part V: Alternate Technologies?
spatially distributed temperatures. These temperatures change with time and are different than that of their supporting structure. In addition, thermally induced distortion (e.g., bending) of the diaphragm can occur. The results of these combined effects are both a zero-shift and a change in sensitivity of the transducer.
Model M102B High frequency ICP® pressure sensor, 5000 psi, 1 mV/psi ...
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
Model 113B26 Platinum Stock Products; High frequency ICP ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
Model 102B04 High frequency ICP® pressure sensor, 1000 psi, 5 mV ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
Charles Universal Broadband Enclosure CUBE-RL1003FA-A General ...
based off of the cabinet interior temperature. The maximum airflow amount supplied to the equipment by the heat exchanger is 147CFM. Setting Internal External . Turn-on Setting (5°C Differential) 0°C 30°C Medium Temp Setting 30°C 35°C High Temp Setting 45°C 50°C High Temp Alarm Setting 70°C N/A Low Temp Alarm Setting -40°C N/A
Model 102B16 High frequency ICP® pressure sensor, 100 psi, 50 mV ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
TN-22 Introduction to Air Blast Measurements - Part V - PCB
of ICP® transducers is also very small; however, the larger, more complex structure of their sensing element (Fig. 5) makes them more sensitive to strain coupling. Ruggedness(survivability) MEMS pressure transducers are specified with ranges to 30,000 psi, and, historically, with stated over-range capabilities of two or three times full-scale ...
Model M102B06 High frequency ICP® pressure sensor, 500 psi, 10 ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
NovaSensor NPH Series Solid State Low Pressure Sensors
Nickel, gold plated Kovar, silicone gel, gold wire, RTV, silicon and glass. Gold plated Kovar, silicon, glass and RTV (9) Parameter Min. Typical 2.5 kPa Max. Min. Typical 7 & 30 kPa Max. Units Notes Performance Parameters(7), Compensated(1) Offset -8 2 8 -4 2 4 mV Full Scale (FS) Output: 2.5 kPa 25 50 90 mV 2 7 kPa 50 75 150 mV 2
Model 601m51 | PCB Piezotronics (en)
3425 Walden Avenue Depew, NY 14043. Sensorline SM 716.684.0001. info@pcb.com +1 800-828-8840
Model S113B23 High frequency ICP® pressure sensor, 10k psi, 0.5 mV/psi ...
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
Omni Antennas CXL 130-1-Ex - amphenolprocom.com
A conical glass fibre tube with very low wind-loading completely encloses the carefully designed radiating element to ensure long dependable service in all climates. Specifications. Electrical; ... Operating temperature range-30 °C to +60 °C: Survival Wind Speed: 200 km/h: Ingress Protection: IP66: Ordering Designations. Model Product No ...
TC-400-TM-X | Amphenol Global Search | Amphenol
The use of very fine stranding extends cable life and improves cable performance in dynamic flexing applications. ... two stage low noise amplifier and a SAW filter provide excellent out-of-band signal rejection performance and consistently clear signal while minimizing loss-of-lock. ... Resources. Product Overview. View Spec Sheet Build Your ...
Model 113B22PBO High frequency ICP® pressure sensor placebo version of ...
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
Model 113B27 High frequency ICP® pressure sensor, 100 psi, 50 mV ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -
General Purpose Single Axis Accelerometers - PCB
Low-Cost ICP® Precision ICP® Wireless Vibration Monitoring System; Multi-Axis ICP® High Temperature; Hazardous Area Approved; Cryogenic ICP® Radiation Hardened; High Frequency ICP® Low Frequency ICP® Low Power ICP® Handheld Vibration Meter; Resistance Temperature Detection; 4-20 mA Transmitters. Vibration Transmitters; Reciprocating ...
Igniter Wire
Trex-Onics® Low Capacitance VFD Shielded Power Cable; Trex-Onics® Low Capacitance Shielded Power Cable with Brake and Signal Pairs; ... Thermo-Trex® Igniter Wire with Fiberglass Jacket is a high-temperature resistant flexible cable that can withstand a maximum conductor temperature of 538°C / 1,000°F.
Installation of vibration sensors - Wilcoxon Sensing Technologies
a structure with high level vibrations. In environments with temperatures at or above 100°C (212°F), the current should be no more than 6 mA to prevent damage to the accelerometer. Cable routing and electromagnetic interference Walky-talkies, power lines, or even electrical sparks are sources of signal interference. The
Model 102B18 High frequency ICP® pressure sensor, 50 psi, 100 mV ... - PCB
The low-frequency response of an ICP® system is determined by: 1. The discharge T.C. of the sensor . 2. If AC-coupled at power unit, the coupling time constant. Consult Section 7.0 in guide G-0001 detailed explanation of low-frequency characteristics of ICP® instruments. 7.0 HIGH-FREQUENCY RESPONSE. Frequency tailoring and the very highnatural -