ค้นหาสินค้า
บริการ
-
Multimeter
-
LCRMeter
-
Spectrum Analyzer
-
Oscilloscope
-
Vector Network Analyzer
-
Function generator
-
Audio Signal Generator
-
Frequency counter
-
RLC Dc Decade Resistance Box
-
Programmable electronic
-
Slide Voltage
-
Lab power supply
-
Clamp on meter
-
Power Analyser
-
Ultrasonic Flow Meter
-
Earth and Soil resistivity
-
Insulation tester
-
milliohm and microohm resistance tester
-
Impulse Winding Tester
-
Safety Tester/Hipot Tester
-
Tachometer Stoboscope
-
Vibration Meter
-
Anemometer
-
Sound meter
-
Lux meter
-
Water Quality Meter
-
Air Environment
-
Hygrometer Thermometer
-
Multifunction / Installation Tester
-
RF Spectrum Analyzer
-
Thermal Image camera
-
Infrared thermometer
-
EMF Spectrum Analyzer
-
Solar cell & Photovoltaic system
-
Calibrator
-
Battery Tester
-
High Voltage Hotline Tools
-
Miscellaneous Meter
-
Trainer Laboratory
-
Transformer Turns Ratio Meter
-
Insulation Oil Tester
-
Accessories
สมัครงาน
ลิ้งก์ภาพ
SR570 : เครื่องขยายกำลังสัญญาณกระแสไฟฟ้า สัญญาณรบกวนต่ำ, 1 pA/V, ย่านความถี่สูงถึง 1 MHz
ข้อมูลสินค้า
-
รหัสสินค้า
SR570
-
เข้าชม
1,554 ครั้ง
ยี่ห้อ
SRS
รุ่น
SR570
-
แก้ไขล่าสุดเมื่อ
30/04/2019 16:20
-
รายละเอียดสินค้า
SR570 : เครื่องขยายกำลังสัญญาณกระแสไฟฟ้า สัญญาณรบกวนต่ำ, 1 pA/V, ย่านความถี่สูงถึง 1 MHz
SR570 Current Preamplifier The SR570 is a low-noise current preamplifier capable of current gains as large as 1 pA/V. High gain and bandwidth, low noise, and many convenient features make the SR570 ideal for a variety of photonic, low-temperature and other measurements. Gain The SR570 has sensitivity settings from 1 pA/V to 1 mA/V that can be selected in a 1-2-5 sequence. A vernier gain adjustment is also provided that lets you select any sensitivity in between. Gain can be allocated to various stages of the amplifier to optimize the instrument’s performance. The low-noise mode places gain in the front end of the amplifier for the best noise performance. The high-bandwidth mode allocates gain to the later stages of the amplifier to improve the frequency response of the front end. In the low-drift mode, the input amplifier is replaced with a very low input-current op amp, reducing the instrument’s DC drift by a factor of 1000. Filters The SR570 contains two first-order RC filters whose cutoff frequency and type can be configured from the front panel. Together, the filters can be configured as a 6 or 12 dB/oct rolloff low-pass or high-pass filter, or as a 6 dB/oct rolloff band-pass filter. Cutoff frequencies are adjustable from 0.03 Hz to 1 MHz in a 1-3-10 sequence. A filter reset button ▪ 5 fA/√ Hz input noise ▪ 1 MHz maximum bandwidth ▪ 1 pA/V maximum gain ▪ Adjustable bias voltage ▪ Two configurable signal filters ▪ Variable input offset current ▪ Line or battery operation ▪ RS-232 interface is included to shorten the overload recovery time of the instrument when long filter time constants are used. Input Offset and DC Bias An input offset-current adjustment is provided to suppress any unwanted DC background currents. Offset currents can be specified from ±1 pA to ±1 mA in roughly 0.1 % increments. The SR570 also has an adjustable input DC bias voltage (±5 V) that allows you to directly sink current into a virtual null (analog ground) or a selected DC bias. Toggle and Blanking Two rear-panel opto-isolated TTL inputs provide additional control of the SR570. A blanking input lets you quickly turn off/on the instrument’s gain which is useful in preventing front-end overloading. A toggle input inverts the sign of the gain in response to a TTL signal, allowing you to perform synchronous detection with a chopped signal. Battery Operation Three rechargeable lead-acid batteries provide up to 15 hours of battery-powered operation. An internal battery charger automatically charges the batteries when the unit is connected to the line. The charger senses the battery state and adjusts the charging rate accordingly. Two rear-panel LEDs indicate the charge state of the batteries. When the batteries become discharged, they are automatically disconnected from the amplifier circuit to avoid battery damage. No Digital Noise The microprocessor that runs the SR570 is “asleep” except during the brief interval it takes to change the instrument’s setup. This ensures that no digital noise will contaminate lowlevel analog signals. RS-232 Interface The RS-232 interface allows listen-only communication with the SR570 at 9600 baud. All functions of the instrument (except power on) can be set via the RS-232 interface. The RS-232 interface electronics are opto-isolated from the amplifier circuitry to provide maximum noise immunity. Why Use a Current Amplifier? Many people wonder why current amplifiers are necessary. Why not simply terminate a current source with a resistor and amplify the resulting voltage with a voltage amplifier? The answer is twofold. To get a large voltage from a current, large resistors are necessary. In combination with cable capacitance, this can lead to unacceptable penalties in frequency response and phase accuracy. Current amplifiers have much better amplitude and phase accuracy in the presence of stray capacitance. Secondly, using resistive terminations forces the current source to operate into possibly large bias voltages—a situation which is unacceptable for many sources and detectors. Current amplifiers can sink current directly into a virtual null or to a selected DC bias voltage. Ordering Information SR570 : Low-noise current preamplifier O560RMD : Double rack mount kit O560RMS : Single rack mount kit O560SB : Spare battery set (3 batteries) Input Inputs Virtual null or user-set bias (±5 V) Input offset ±1 pA to ±1 mA adjustable DC offset current Maximum input ±5 mA Noise See graphs on previous page Sensitivity 1 pA/V to 1 mA/V in 1-2-5 sequence (Vernier adjustment in 0.5 % steps) Grounding Amplifier ground is fully floating. Amplifier and chassis ground are available at rear panel. Input ground can float up to ±40 V. Filters Signal filters 2 configurable (low-pass or highpass) 6 dB/oct rolloff filters. –3 dB points are settable in a 1-3-10 sequence from 0.03 Hz to 1 MHz. Gain allocation Low Noise Gain is allocated to the front end for best noise performance. High Bandwidth Front-end gain is reduced for optimum frequency response. Low Drift Low bias current amplifier is used for reduced drift at high sensitivity. Filter reset Long time constant filters may be reset with front-panel button. Output Gain accuracy ±(0.5 % of output + 10 mV) @ 25 °C DC drift See table below Maximum output ±5 V into a high-impedance load General External blanking TTL input sets gain to zero External toggle TTL input inverts gain polarity Rear panel biasing ±12 VDC @ 200 mA, referenced to amplifier ground Computer interface RS-232, 9600 baud, receive only Power 100/120/220/240 VAC, 6 W charged,
30 W while charging. Internal batteries provide 15 hours of operationbetween charges. Batteries are charged while connected to the line. Dimensions 8.3" × 3.5" × 13.0" (WHD) Weight 15 lbs. (batteries installed) Warranty One year parts and labor on defects in materials and workmanship
Tags : SRS , SR570 , เครื่องขยายกำลังสัญญาณกระแสไฟฟ้า , Low noise current preamplifier , current preamplifier , preamplifier