簡(jiǎn)要描述:*符合國(guó)家標(biāo)準(zhǔn)GB1410-2006固體電工絕緣材料絕緣電阻、體積電阻系數(shù)和表面電阻試驗(yàn)方法,ASTM D257 絕緣材料的直流電阻或電導(dǎo)試驗(yàn)方法 等標(biāo)準(zhǔn)要求。本儀器配不同的測(cè)量電極(夾具)可以測(cè)量不同材料(固體、粉體或液體)的體積電阻率和表面電阻率或電導(dǎo)率。適用于橡膠、塑料、薄膜、及粉體、液體、及固體和膏體形狀的各種絕緣材料體積和表面電阻值的測(cè)定。本儀器除能測(cè)電阻外,還能直接測(cè)量微弱電流。
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一、符合標(biāo)準(zhǔn)及適用范圍:
*符合國(guó)家標(biāo)準(zhǔn)GB1410-2006固體電工絕緣材料絕緣電阻、體積電阻系數(shù)和表面電阻試驗(yàn)方法,ASTM D257 絕緣材料的直流電阻或電導(dǎo)試驗(yàn)方法 等標(biāo)準(zhǔn)要求。本儀器配不同的測(cè)量電極(夾具)可以測(cè)量不同材料(固體、粉體或液體)的體積電阻率和表面電阻率或電導(dǎo)率。適用于橡膠、塑料、薄膜、及粉體、液體、及固體和膏體形狀的各種絕緣材料體積和表面電阻值的測(cè)定。本儀器除能測(cè)電阻外,還能直接測(cè)量微弱電流。
二、技術(shù)指標(biāo)
序號(hào) | 項(xiàng)目 | 參數(shù) |
1 | 電阻測(cè)量范圍 | 1×104Ω ~1×1018Ω |
2 | 電流測(cè)量范圍 | 2×10-4A~1×10-16A |
3 | 顯 示 方 式 | 數(shù)字液晶顯示 |
4 | 內(nèi)置測(cè)試電壓 | 10V 、50V、100V、250V、500V、1000V |
5 | 基本準(zhǔn)確度 | 1% |
6 | 使用環(huán)境 | 溫度:0℃~40℃,相對(duì)濕度<80% |
7 | 供電形式 | AC 220V,50HZ,功耗約5W |
8 | 儀器尺寸 | 285mm× 245mm× 120 mm |
9 | 質(zhì)量 | 約5KG |
10 | 體積小、重量輕、準(zhǔn)確度高 | 電阻、電流雙顯示,性能好穩(wěn)定、讀數(shù)方便 |
11 | 使測(cè)量超高電阻就如用萬(wàn)用表測(cè)量普通電阻樣簡(jiǎn)便 | 免去老式高阻計(jì)在不同測(cè)試電壓下或不同量程時(shí)要乘以系數(shù)等使用不便的麻煩 |
三、工作原理
根據(jù)歐姆定律,被測(cè)電阻Rx等于施加電壓V除以通過(guò)的電流I。傳統(tǒng)的高阻計(jì)的工作原理是測(cè)量電壓V固定,通過(guò)測(cè)量流過(guò)取樣電阻的電流I來(lái)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(wú)窮大時(shí),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(gè)刻度是非線性的。又由于測(cè)量不同的電阻時(shí),其電壓V也會(huì)有些變化,所以普通的高阻計(jì)是精度差、分辨率低。
本臺(tái)電阻率測(cè)試儀是同時(shí)測(cè)出電阻兩端的電壓V和流過(guò)電阻的電流I,通過(guò)內(nèi)部的大規(guī)模集成電路完成電壓除以電流的計(jì)算,然后把所得到的結(jié)果經(jīng)過(guò)A/D轉(zhuǎn)換后以數(shù)字顯示出電阻值,即便是電阻兩端的電壓V和流過(guò)電阻的電流I是同時(shí)變化,其顯示的電阻值不象普通高阻計(jì)那樣因被測(cè)電壓V的變化或電流I的變化而變,所以,即使測(cè)量電壓、被測(cè)量電阻、電源電壓等發(fā)生變化對(duì)其結(jié)果影響不大,其測(cè)量精度很高(),從理論上講其誤差可以做到零,而實(shí)際誤差可以做到千分之幾或萬(wàn)分之幾。
四、典型應(yīng)用
1、測(cè)量絕緣材料電阻(率)
2、測(cè)量防靜電材料的電阻及電阻率
3、測(cè)量計(jì)算機(jī)房用活動(dòng)地板的系統(tǒng)電阻值
4、測(cè)量防靜電鞋、導(dǎo)電鞋的電阻值
5、光電二極管暗電流測(cè)量
6、物理,光學(xué)和材料研究
五、標(biāo)準(zhǔn)配置:
序號(hào) | 配置 | 單位 | 數(shù)量 |
1 | 測(cè)試儀器 | 臺(tái) | 1 |
2 | 電極箱 | 臺(tái) | 1 |
3 | 電源線 | 條 | 1 |
4 | 測(cè)量線 | 條 | 3 |
5 | 使用說(shuō)明書 | 份 | 1 |
使用注意事項(xiàng)
★高阻測(cè)量一定要嚴(yán)格按使用方法步聚進(jìn)行,否則有可能造成儀器*損壞或電人。
7.1 應(yīng)在“Rx"兩端開路時(shí)調(diào)零(主機(jī)開機(jī))
如接在電阻箱或被測(cè)量物體上時(shí)調(diào)零后測(cè)量會(huì)產(chǎn)生很大的誤差。一般一次調(diào)零后在測(cè)試過(guò)程中不需再調(diào)零,但改變測(cè)量電壓后可能要重新調(diào)零。
7.2 禁止將“Rx"兩端短路,以免微電流放大器受大電流沖擊
7.3 在測(cè)試過(guò)程中不要隨意改動(dòng)測(cè)量電壓,
★隨意改動(dòng)測(cè)量電壓可能因電壓的過(guò)高或電流過(guò)大損壞被測(cè)試器件或測(cè)試儀器,而且有的材料是非線性的,即電壓與電流是不符合歐姆定律,有改變電壓時(shí)由于電流不是線性變化,所以測(cè)量的電阻也會(huì)變化。
7.4 測(cè)量時(shí)從低次檔逐漸拔往高次檔
★每撥一次稍停留1~2秒以便觀察顯示數(shù)字,當(dāng)有顯示值時(shí)應(yīng)停下,記錄當(dāng)前的數(shù)字即是被測(cè)電阻值。若顯示“1"時(shí),表示欠量程應(yīng)往高次檔拔。直到有顯示數(shù)字時(shí)為止。當(dāng)有顯示數(shù)字時(shí)不能再往高次檔撥,否則有可能損壞儀器(機(jī)內(nèi)有過(guò)電流保護(hù)電路)。除104 Ω檔之外,當(dāng)顯示低于1.99,表示過(guò)量程應(yīng)換低檔!
7.5 大部分絕緣材料,特別是防靜電材料的電阻值在加電壓后會(huì)有一定變化而引起數(shù)字變化
★由于本儀器的分辯率很高,因而會(huì)引起顯示值的末尾幾位數(shù)也變化,這不是儀器本身的問(wèn)題,而是被測(cè)量對(duì)象的導(dǎo)電機(jī)理復(fù)雜而使得阻值有些變化。在這種情況下往往取2位有效數(shù)就夠了。
7.6 接通電源后,手指不能觸及高壓線的金屬部分
★本儀表有二連根線:高壓線(紅)和微電流測(cè)試線。在使用時(shí)要注意高壓線,開機(jī)后人不能觸及高壓線,以免電人或麻手。
7.7 測(cè)試過(guò)程中不能觸摸微電流測(cè)試端
★微電流測(cè)試端zui怕受到大電流或人體感應(yīng)電壓及靜電的沖擊。所以在開機(jī)后和測(cè)試過(guò)程中不能與微電流測(cè)試端接觸,以免損壞儀表。
7.8 在測(cè)量高阻時(shí),應(yīng)采用屏蔽盒將被測(cè)物體屏蔽.
★在測(cè)量大于1010 Ω以上時(shí),為防止外界干擾面而引起讀數(shù)不穩(wěn)。
7.9 每次測(cè)量完時(shí)應(yīng)將量程開關(guān)撥回“104 "檔再進(jìn)行下次測(cè)試
在測(cè)量時(shí)應(yīng)逐漸將量程開關(guān)撥到高阻檔,測(cè)量完時(shí)應(yīng)將電流電阻量程、電壓量程開關(guān)撥回低檔。以 確保下次開機(jī)時(shí)量程開關(guān)處在低阻量程檔。
One, conforms to the standard and scope of application:
*符合國(guó)家標(biāo)準(zhǔn)GB1410-2006固體電工絕緣材料絕緣電阻、體積電阻系數(shù)和表面電阻試驗(yàn)方法,ASTM D257 絕緣材料的直流電阻或電導(dǎo)試驗(yàn)方法 等標(biāo)準(zhǔn)要求。本儀器配不同的測(cè)量電極(夾具)可以測(cè)量不同材料(固體、粉體或液體)的體積電阻率和表面電阻率或電導(dǎo)率。適用于橡膠、塑料、薄膜、及粉體、液體、及固體和膏體形狀的各種絕緣材料體積和表面電阻值的測(cè)定。本儀器除能測(cè)電阻外,還能直接測(cè)量微弱電流。
In full compliance with national standards GB1410-2006 solid electrical insulation resistance, volume resistivity and surface resistance test method of material, ASTM D257 DC resistance or conductance of insulating materials test method standards. This instrument measuring electrode with different (fixture) can measure different materials (solid, powder or liquid) of the volume resistivity and surface resistivity or conductivity. Suitable for rubber, plastic, film, and powder, liquid, and solid and pasty shape insulating materials by volume and surface resistance value. This instrument can measure resistance, and can directly measure weak current.
二、技術(shù)指標(biāo)
Two, technical indicators
序號(hào) 項(xiàng)目 參數(shù)
The number of item parameters
1 電阻測(cè)量范圍 1×104Ω ~1×1018Ω
1 resistance measurement range of 1 × 104 to 1 × 1018 Ω
2 電流測(cè)量范圍 2×10-4A~1×10-16A
2 current measurement range of 2 × 10-4A ~ 1 × 10-16A
3 顯 示 方 式 數(shù)字液晶顯示
3 display mode digital LCD display
4 內(nèi)置測(cè)試電壓 10V 、50V、100V、250V、500V、1000V
4 built-in test voltage of 10V, 50V, 100V, 250V, 500V, 1000V
5 基本準(zhǔn)確度 1%
5 basic accuracy 1%
6 使用環(huán)境 溫度:0℃~40℃,相對(duì)濕度<80%
6 the use of environmental temperature: 0 ℃ ~ 40 ℃, relative humidity <80%
7 供電形式 AC 220V,50HZ,功耗約5W
The 7 power supply form of AC 220V, 50HZ, power consumption is about 5W
8 儀器尺寸 285mm× 245mm× 120 mm
The 8 instrument size 285mm × 245mm × 120 mm
9 質(zhì)量 約5KG
9 quality about 5KG
10 體積小、重量輕、準(zhǔn)確度高 電阻、電流雙顯示,性能好穩(wěn)定、讀數(shù)方便
10 has the advantages of small volume, light weight, high accuracy resistance, current dual display, performance stability, easy reading
11 使測(cè)量超高電阻就如用萬(wàn)用表測(cè)量普通電阻樣簡(jiǎn)便 免去老式高阻計(jì)在不同測(cè)試電壓下或不同量程時(shí)要乘以系數(shù)等使用不便的麻煩
11 the measurement of ultra high resistance as measured with a multimeter common resistance is removed from the old high resistance meter in different test voltage or different range should be multiplied by the coefficient of inconvenience and trouble
三、工作原理
Three, work principle
根據(jù)歐姆定律,被測(cè)電阻Rx等于施加電壓V除以通過(guò)的電流I。傳統(tǒng)的高阻計(jì)的工作原理是測(cè)量電壓V固定,通過(guò)測(cè)量流過(guò)取樣電阻的電流I來(lái)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(wú)窮大時(shí),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(gè)刻度是非線性的。又由于測(cè)量不同的電阻時(shí),其電壓V也會(huì)有些變化,所以普通的高阻計(jì)是精度差、分辨率低。
According to Ohm's law, the measured resistance Rx is equal to the applied voltage divided by current V by I. The working principle of high resistance meter is the traditional measure voltage V fixed, by measuring the current flows through the sampling resistor I to get the resistance value. From Ohm's law can be seen, the current I is inversely proportional to the resistance, not proportional, so is nonlinear resistive display value, namely the infinite resistance, current is zero, i.e. zero at the header is ∞, graduated in the vicinity of the very tight, very low resolution. The scale is nonlinear. Because the resistance measurement is different, its voltage V there will be some changes, so the high resistance of ordinary meter is poor accuracy, low resolution.
本臺(tái)電阻率測(cè)試儀是同時(shí)測(cè)出電阻兩端的電壓V和流過(guò)電阻的電流I,通過(guò)內(nèi)部的大規(guī)模集成電路完成電壓除以電流的計(jì)算,然后把所得到的結(jié)果經(jīng)過(guò)A/D轉(zhuǎn)換后以數(shù)字顯示出電阻值,即便是電阻兩端的電壓V和流過(guò)電阻的電流I是同時(shí)變化,其顯示的電阻值不象普通高阻計(jì)那樣因被測(cè)電壓V的變化或電流I的變化而變,所以,即使測(cè)量電壓、被測(cè)量電阻、電源電壓等發(fā)生變化對(duì)其結(jié)果影響不大,其測(cè)量精度很高(),從理論上講其誤差可以做到零,而實(shí)際誤差可以做到千分之幾或萬(wàn)分之幾。
The resistivity tester is current and voltage V and flow resistance at the same time measuring resistor I, the large scale integrated circuit internal to complete the calculation of voltage divided by current, and then the obtained results after A/D conversion to digital display resistance value, even if is current and voltage of V and flow resistance at both ends of the I is at the same time change, resistance displayed value not like ordinary high resistance meter that due to changes in the measured voltage or current change of V I and change, so, even if the measurement of voltage, resistance, power supply voltage is measured and the change had little effect on the results, the measuring accuracy is very high (patent), theoretically the error is zero, but the actual error can be done a few thousandths or very few.
四、典型應(yīng)用
Four, the typical application
1、測(cè)量絕緣材料電阻(率)
Insulation resistance 1, measurement (rate)
2、測(cè)量防靜電材料的電阻及電阻率
2, the measurement of anti resistance and resistivity electrostatic materials
3、測(cè)量計(jì)算機(jī)房用活動(dòng)地板的系統(tǒng)電阻值
3, the measurement used in computer room floor system resistance value
4、測(cè)量防靜電鞋、導(dǎo)電鞋的電阻值
Resistance of 4, measurement of anti-static shoes, conductive shoes value
5、光電二極管暗電流測(cè)量
5, photoelectric diode dark current measurement
6、物理,光學(xué)和材料研究
6, physical, optical and material research
五、標(biāo)準(zhǔn)配置:
Five, the standard configuration:
序號(hào) 配置 單位 數(shù)量
The number of serial number allocation unit
1 測(cè)試儀器 臺(tái) 1
1 test instrument platform 1
2 電極箱 臺(tái) 1
The 2 electrode box 1
3 電源線 條 1
3 power line 1
4 測(cè)量線 條 3
4 measuring lines 3
5 使用說(shuō)明書 份 1
5 Manual 1
使用注意事項(xiàng)
Use the matters needing attention
★高阻測(cè)量一定要嚴(yán)格按使用方法步聚進(jìn)行,否則有可能造成儀器*損壞或電人。
★ high resistance measurements using the method must strictly follow the steps, otherwise there may result in permanent damage or power apparatus.
7.1 應(yīng)在“Rx"兩端開路時(shí)調(diào)零(主機(jī)開機(jī))
7.1 should be in the "Rx" open circuited ends at zero (host computer)
如接在電阻箱或被測(cè)量物體上時(shí)調(diào)零后測(cè)量會(huì)產(chǎn)生很大的誤差。一般一次調(diào)零后在測(cè)試過(guò)程中不需再調(diào)零,但改變測(cè)量電壓后可能要重新調(diào)零。
If the resistance box or the object being measured at zero measurement will produce great error. A general transfer in the process of testing zero does not need to zero, but change the measurement voltage may want to zero.
7.2 禁止將“Rx"兩端短路,以免微電流放大器受大電流沖擊
7.2 prohibit "Rx" ends of short circuit, so as to avoid the micro current amplifier high current impact
7.3 在測(cè)試過(guò)程中不要隨意改動(dòng)測(cè)量電壓,
7.3 in the process of testing do not arbitrarily change the voltage measurement,
★隨意改動(dòng)測(cè)量電壓可能因電壓的過(guò)高或電流過(guò)大損壞被測(cè)試器件或測(cè)試儀器,而且有的材料是非線性的,即電壓與電流是不符合歐姆定律,有改變電壓時(shí)由于電流不是線性變化,所以測(cè)量的電阻也會(huì)變化。
★ change measuring voltage may be due to the over voltage or current is too large damage to a device or instrument was tested, and some material is nonlinear, namely voltage and current is not accorded with Ohm's law, a voltage change due to current is not a linear change, so the electrical resistance measurement will change.
7.4 測(cè)量時(shí)從低次檔逐漸拔往高次檔
7.4 when measured from low to high grade gradually drawing file
★每撥一次稍停留1~2秒以便觀察顯示數(shù)字,當(dāng)有顯示值時(shí)應(yīng)停下,記錄當(dāng)前的數(shù)字即是被測(cè)電阻值。若顯示“1"時(shí),表示欠量程應(yīng)往高次檔拔。直到有顯示數(shù)字時(shí)為止。當(dāng)有顯示數(shù)字時(shí)不能再往高次檔撥,否則有可能損壞儀器(機(jī)內(nèi)有過(guò)電流保護(hù)電路)。除104 Ω檔之外,當(dāng)顯示低于1.99,表示過(guò)量程應(yīng)換低檔!
★ every dial again slightly for 1 ~ 2 seconds in order to observe the display number, when the display value should be stopped, records the current figure was measured resistance values. If the display is "1", said underrange should go to the higher profile drawing. Until the display digital date. When the display numbers cannot go higher gear shifting, or they may damage the instrument (machine over-current protection circuit). In addition to 104 ohm, when the display is less than 1.99, says overrange should downshift!
7.5 大部分絕緣材料,特別是防靜電材料的電阻值在加電壓后會(huì)有一定變化而引起數(shù)字變化
Most of the 7.5 insulating materials, especially the resistance of antistatic material values in the applied voltage will have some changes caused by digital change
★由于本儀器的分辯率很高,因而會(huì)引起顯示值的末尾幾位數(shù)也變化,這不是儀器本身的問(wèn)題,而是被測(cè)量對(duì)象的導(dǎo)電機(jī)理復(fù)雜而使得阻值有些變化。在這種情況下往往取2位有效數(shù)就夠了。
★ because the instrument resolution is very high, so it will cause the display value of the end digits also change, this is not the instrument itself, the conductive mechanism instead of the measured object is complex and make some changes in resistance. In this case are 2 effective number is enough.
7.6 接通電源后,手指不能觸及高壓線的金屬部分
7.6 after the power is switched on, the metal part of the finger can not touch the high-voltage wire
★本儀表有二連根線:高壓線(紅)和微電流測(cè)試線。在使用時(shí)要注意高壓線,開機(jī)后人不能觸及高壓線,以免電人或麻手。
★ this instrument has two lines: the roots high-voltage wire (red) and micro current test line. When in use, attention should be paid to the high voltage line, starting later can't touch the high-voltage wire, in order to avoid electric or hemp hand.
7.7 測(cè)試過(guò)程中不能觸摸微電流測(cè)試端
Don't touch the micro current test terminal 7.7 testing process
★微電流測(cè)試端zui怕受到大電流或人體感應(yīng)電壓及靜電的沖擊。所以在開機(jī)后和測(cè)試過(guò)程中不能與微電
★ micro current measurement is most afraid of be current or the human body induction voltage and static shock. So can't in the boot and the testing process and micro electric
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