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品牌 | AIRTIMES/中航時代 |
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ZST-121橡膠塑料電阻率測定儀(體積表面電阻率測試儀)
符合標準:
GB1410《固體電工絕緣材料絕緣電阻、體積電阻系數和表面電阻試驗方法》
ASTM D257《絕緣材料的直流電阻或電導試驗方法》
一、概述
本儀器既可測量高電阻,又可測微電流。采用了美國In公司的大規模集成電路,使儀器體積小、重量輕、準確度高。以雙3.1/2 位數字直接顯示電阻的高阻計和電流。量限從1×104Ω ~1×1018 Ω,是目前國內測量范圍zui寬,準確度zui高的數字超高阻測量儀。電流測量范圍為2×10-4 ~1×10-16A。機內測試電壓為10/50/100/250/500/1000V任意可調。本儀器具有精度高、顯示迅速、性好穩定、讀數方便, 適用于防靜電產品如防靜電鞋、防靜電塑料橡膠制品、計算機房防靜電活動地板等電阻值的檢驗以及絕緣材料和電子電器產品的絕緣電阻測量。本儀器除能測電阻外,還能直接測量微弱電流。
三、技術指標
1、電阻測量范圍: 1×104Ω ~1×1018Ω。
2、電流測量范圍為: 2×10-4A~1×10-16A
3、雙表頭顯示: 3.1/2位LED顯示
4、內置測試電壓:10V、50V、100V、250、500、1000V
5、基本準確度:1% (*注)
6、使用環境: 溫度:0℃~40℃,相對濕度<80%
7、機內測試電壓: 10/50/100/250/500/1000V 任意切換
8、供電形式: AC 220V,50HZ,功耗約5W
9、儀器尺寸: 285mm× 245mm× 120 mm
10、質量: 約2.5KG
四、工作原理
根據歐姆定律,被測電阻Rx等于施加電壓V除以通過的電流I。傳統的高阻計的工作原理是測量電壓V固定,通過測量流過取樣電阻的電流I來得到電阻值。從歐姆定律可以看出,由于電流I是與電阻成反比,而不是成正比,所以電阻的顯示值是非線性的,即電阻無窮大時,電流為零,即表頭的零位處是∞,其附近的刻度非常密,分辨率很低。整個刻度是非線性的。又由于測量不同的電阻時,其電壓V也會有些變化,所以普通的高阻計是精度差、分辨率低。
本儀器是同時測出電阻兩端的電壓V和流過電阻的電流I,通過內部的大規模集成電路完成電壓除以電流的計算,然后把所得到的結果經過A/D轉換后以數字顯示出電阻值,即便是電阻兩端的電壓V和流過電阻的電流I是同時變化,其顯示的電阻值不象普通高阻計那樣因被測電壓V的變化或電流I的變化而變,所以,即使測量電壓、被測量電阻、電源電壓等發生變化對其結果影響不大,其測量精度很高(),從理論上講其誤差可以做到零,而實際誤差可以做到千分之幾或萬分之幾。
典型應用
1.測量防靜電鞋、導電鞋的電阻值
2、測量防靜電材料的電阻及電阻率
3、測量計算機房用活動地板的系統電阻值
4、測量絕緣材料電阻(率)
5、光電二極管暗電流測量
6、物理,光學和材料研究
標準配置:
1、測試儀器:1臺
2、電源線:1條
3、測量線:3根(屏蔽線、測試接線、接地線)
4、使用說明書:1份
橡膠塑料電阻率測定儀使用方法
6.1接好電源線
確保電源為220VAC/50Hz
6.2接通電源
將電流電阻量程置于 104 檔,電壓量程置于10V,然后開機。
6.3調零
在“Rx"兩端開路的情況下,調零使電流表的顯示為0000 .注意:在“Rx"兩端不開路,如接在電阻箱或被測量物體上時調零后測量會產生很大的誤差。一般一次調零后在測試過程中不需再調零。 完畢后關機。
6.4連接線路
接好測試線,將測試線將主機與屏蔽箱連接好,測體積電阻時測試按鈕撥到Rv邊,測表面電阻時測試按鈕撥到Rs邊。然后開機。
6.5選擇合適的測量電壓
★電壓選擇開關在后面板,注意,在測試過程中不要隨意改動測量電壓,可能因電壓的過高或電流過大損壞被測試器件或測試儀器;
6.6測試
測量時從低檔位逐漸拔往高檔,每撥一次稍停留1~2秒以使觀察顯示數字, 當被測電阻大于儀器測量量程時,電阻表顯示“1",此時應繼續將儀器撥到量程更高的位置,當測量儀器有顯示值時應停下,當前的數字乘以檔次即是被測電阻值。當有顯示數字時不要再往更高次檔撥,否測儀器會過量程,機內保護電路開始工作,儀器測量準確度會下降。
6.7 測試完畢將電阻電流量程拔至“104 "檔,電壓量程調至10V后關閉電源
★每測量一次均應將量程開關撥回到104“調零"檔的量程位置以免開機或測量端短路時而損壞儀器。
6.8 測量電流及1015Ω以上超高電阻的測量應用測量電流后用歐姆定律以電壓除以電流計算電阻的方法,詳見8.5節內容。
6.9 體積電阻和表面電阻轉換
★在測試過程中,使用屏蔽箱在進行體積電阻和表面電阻轉換時,必須把電源關閉后進行檔位轉換,否則會導致電壓沖擊到主機無法顯示或損壞。
Meet the standard:
GB1410 "solid electrical insulation materials insulation resistance, volume resistivity and surfaceresistance test method"
DC resistance or conductance of insulating materials test method "ASTM D257"
One, overview
This instrument can measure high resistance, and micrometer current. Using large scale integrated circuit American In company, so that the instrument has the advantages of small volume, light weight, high accuracy. High resistance meter and current resistance directly by double 3.1/2 digit display. Range from 1 * 104 to 1 * 1018 Omega Omega, is currently the mostwide measuring range, digital with the highest accuracy of ultra high resistance measuring instrument. Current measuring range of 2 * 10-4 to 1 * 10-16A. The built-in test voltage of 10/50/100/250/500/1000V adjustable. The instrument has high precision, good stability, showing rapid, convenient reading, suitable for measuring insulation resistance in anti-static productssuch as anti-static shoes, anti-static plastic and rubber products, anti static floor computer roominspection such as value of resistance and insulation materials and electronic products. In addition to the instruments can measure resistance, but also the direct measurement of weakcurrent.
Three, technical indicators
1, resistance measuring range: 1 * 104 to 1 * 1018 Omega omega.
2, the current measuring range: 2 * 10-4A to 1 * 10-16A
3, double headers: 3.1/2 LED display
4, the built-in test voltage: 10V, 50V, 100V, 250, 500, 1000V
5, basic accuracy: 1% (note)
6, the use of the environment: temperature: 0 to 40 DEG C, relative humidity <80%
7, the built-in test voltage: 10/50/100/250/500/1000V arbitrary switching
8 power supply forms: AC, 220V, 50HZ, power consumption is about 5W
9, the instrument size: 285mm x 245mm x 120 mm
10, quality: about 2.5KG
Four, the principle of work
According to Ohm's law, the resistance being measured Rx is equal to the applied voltagedivided by current V by I. The working principle of the high resistance meter is the traditionalmeasuring voltage V fixed, by measuring the current flowing through the sampling resistor I toobtain the resistance value. From Ohm's law can be seen, because the current I is inversely proportional to the resistance, but not proportional, so is nonlinear resistive display value, i.e.,infinite resistance, current is zero, i.e. zero at the header is infinite, scale near the very dense,with a low resolution. The scale is nonlinear. Because the resistance measurement of differentvoltage, the V will also be some changes, so the high resistance of ordinary gauge is poor accuracy and low resolution.
This instrument is the current flowing through the resistor V and a voltage across the resistor Imeasured at the same time, the large scale integrated circuit internal to complete the calculation of voltage divided by current, then put the results obtained after A/D conversion to digital displayresistance, even current voltage V and the flow resistance at both ends of the I is changed at the same time. The resistance of the display value is not like an ordinary high resistance meterthat due to changes in the voltage to be measured changes in V or I current and change, so,even if the measure voltage, measure resistance, power supply voltage change has little influence on the results, the measuring accuracy is very high (patent), theoretically the error can do zero, while the actual error can do a few thousandths or very few.
Typical applications
1 resistance measurement of anti-static shoes, conductive shoes value
2, measurement of anti electrostatic material resistance and resistivity
3, measurement of computer room with movable floor system resistance value
Insulation resistance 4, measurement (rate)
5, photoelectric diode dark current measurement
6, physics, optics and material research
Standard configuration:
1, test equipment: 1 sets
2, the power line: 1
3, measuring line: 3 (shielding wire, test wiring, grounding wire)
4, instructions for use: 1
Six using the method
6.1 connect the power line
Make sure the power is 220VAC/50Hz
6.2 connect the power supply
The current resistance range in 104 files, voltage range in 10V, and then boot.
6.3 zero
In the "Rx" at both ends open under the condition of zero to display the current table 0 note: do not open in the "Rx" ends, such as connected to the resistance box or an object to be measuredon the tune measurement of zero after the great error will occur. A general tone in the testing process does not need to be zero zero. After shutdown.
The 6.4 connection line
Connect the test line and testing line will host and shielding box is connected well, the test button dial to Rv edge of measuring volume resistance, surface resistance measurement when the test button dial to Rs side. And then boot.
6.5 select the appropriate measuring voltage
* the voltage selector switch on the rear panel, attention, in the test process, do not arbitrarily change the voltage measurements, probably due to the high voltage or current is too large and damage to the device or testing instrument is tested;
The 6.6 test
When measuring low level to high level gradually from pull out, each dial again slightly stay 1 to2 seconds to make the observation of digital display, when the measured resistance greater than the instrument measurement range, resistance meter shows "1", this time should continue to instrument dial to range higher position, when measuring instruments have displayed valueshould be stop the current number multiplied by the grade is measured resistance values. When the display numbers do not go down to the higher gear shifting, no measuring instruments willrange, machine protection circuit starts to work, the instrument measuring accuracy will decline.
The 6.7 test is completed the resistance current range pull to "104", the voltage range to 10Vafter power off
* each measuring a shall measuring range switch back to 104 "range position zero" file so as not to boot or measuring terminal short circuit and damage the instrument.
The 6.8 methods above to measure current and 1015 ohm measurement application of measuring current and very high resistance after using Ohm's law to the voltage divided by thecurrent calculation of resistance, described in Section 8.5 content.
6.9 the volume resistance and surface resistance conversion
* in the testing process,
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