Quality is life, service is the tenet
發(fā)布時間: 2024-08-14
產(chǎn)品型號: BEST-121
廠商性質(zhì): 生產(chǎn)廠家
所 在 地: 北京市海淀區(qū)上地科技園上地十街1號
產(chǎn)品特點(diǎn): 絕緣電阻率測試儀價格
絕緣電阻率測試儀使用條件
①環(huán)境溫度: 0~40℃
②相對溫度:≤70%
③供電電流:交流 220V±10%50Hz
絕緣電阻率測試儀主要特點(diǎn)
u 電阻測量范圍 1×104Ω ~1×1018 Ω;
u 電流測量范圍 2×10-4A ~1×10-16A;
u 體積小、重量輕、準(zhǔn)確度高;
u *的被測電阻、和流過電阻的電流雙顯示,使操作測量更加方便;
u 性能穩(wěn)定、讀數(shù)方便;
u 既能測電阻又能測電流;
u 測試電壓有六種選擇DC10V、50V、100V、250V、500V、1000V;
u 使用操作簡便,在任何電阻量程和測試電壓下均直接讀顯示數(shù)字結(jié)果,免去要乘以一個系數(shù)的麻煩,使測量超高電阻就如用萬用表測量普通電阻樣簡便。
絕緣電阻率測試儀主要標(biāo)準(zhǔn):
GB/T 1410-2006 固體絕緣材料 體積電阻率和表面電阻率試驗(yàn)方法
GB1672-8液體增塑劑體積電阻率的測定
GB 12014 防靜電工作服
GB/T 20991-2007 個體防護(hù)裝備 鞋的測試方法
GB 4385-1995 防靜電鞋、導(dǎo)電鞋技術(shù)要求
GB 12158-2006 防止靜電事故通用導(dǎo)則
GB 4655-2003 橡膠工業(yè)靜電安全規(guī)程
GB/T 1692-2008 硫化橡膠絕緣電阻的測定
GB/T 12703.6-2010 紡織品 靜電性能的評定 第6部分 纖維泄漏電阻
GB 13348-2009 液體石油產(chǎn)品靜電安全規(guī)程
GB/T 15738-2008 導(dǎo)電和抗靜電纖維增強(qiáng)塑料電阻率試驗(yàn)方法
GB/T 18044-2008 地毯 靜電習(xí)性評價法 行走試驗(yàn)
GB/T 18864-2002 硫化橡膠 工業(yè)用抗靜電和導(dǎo)電產(chǎn)品 電阻極限范圍
GB/T 22042-2008 服裝 防靜電性能 表面電阻率試驗(yàn)方法
GB/T 22043-2008 服裝 防靜電性能 通過材料的電阻(垂直電阻)試驗(yàn)方法
GB/T 24249-2009 防靜電潔凈織物
GB 26539-2011 防靜電陶瓷磚 Antistatic ceramic tile
GB/T 26825-2011 抗靜電防腐膠
GB 50515-2010 導(dǎo)(防)靜電地面設(shè)計規(guī)范
GB 50611-2010 電子工程防靜電設(shè)計規(guī)范
GJB 105-1998-Z 電子產(chǎn)品防靜電放電控制手冊
GJB 3007A-2009 防靜電工作區(qū)技術(shù)要求
GJB 5104-2004 無線電引信風(fēng)帽用防靜電涂料及風(fēng)帽靜電性能通用要求
絕緣電阻率測試儀概述
BEST- 121型高絕緣電阻測量儀用于測量絕緣材料、電工產(chǎn)品、各種元器件的絕緣電阻;與恒溫水浴配套后,還能測量不同溫度下的塑料電線電纜(無屏蔽層)的絕緣電阻,該儀器具有測量精度高、性能穩(wěn)定、操作簡單、輸入端高壓短路等優(yōu)點(diǎn),儀器的zui高量程 1018Ω電阻值(測試電壓為 1000V)。 本儀表貫徹 Q/TPGG 7-2008 高絕緣電阻測量儀企業(yè)標(biāo)準(zhǔn)。
①直流高壓電流輸出 10,50,100,500,1000V 五檔
②根據(jù)試樣的電阻值及直流高壓值選擇合適的量程倍率。
③高輸入阻抗直流放大器(輸入阻抗>1015Ω)
④指示儀表,指示被測絕緣電阻。
⑤電源供給儀器各部分工作電源。
絕緣電阻率測試儀安全注意事項(xiàng)
4.1 使用前務(wù)必詳閱此說明書,并遵照指示步驟,依次操作。
4.2 請勿使用非原廠提供之附件,以免發(fā)生危險。
4.3 進(jìn)行測試時,本儀器測量端高壓輸出端上有直流高壓輸出,嚴(yán)禁人體接觸 ,以免觸電。
4.4 為避免測試棒本身絕緣泄漏造成誤差,接儀器測量端輸入的測試棒應(yīng)盡可 能懸空,不與外界物體相碰。
4.5 當(dāng)被測物絕緣電阻值高,且測量出現(xiàn)指針不穩(wěn)現(xiàn)象時,可將儀器測量線屏 蔽端夾子接上。 例如:對電纜測纜芯與纜殼的絕緣時,除將被測物兩 端分 別接于輸入端與高壓 端,再將電纜殼 ,芯之間的內(nèi)層絕緣物接儀器 “G”,以消 除因 表面漏電而 引起的測量誤差。也可用加屏蔽盒的方法, 即將被測物置于金屬屏蔽盒內(nèi),接上測量線。
絕緣電阻率測試儀同時測出電阻兩端的電壓V和流過電阻的電流I,通過內(nèi)部的大規(guī)模集成電路完成電壓除以電流的計算,然后把所得到的結(jié)果經(jīng)過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(fā)生變化對其結(jié)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(shí)際誤差可以做到千分之幾或萬分之幾。
絕緣電阻率測試儀注意事項(xiàng)
★★★★★★★★★★★★★
儀器使用前請仔細(xì)閱讀以下內(nèi)容,否則將造成儀器損壞或電擊情況。
1. ★檢查儀器后面板電壓量程是否置于10V檔,電流電阻量程是否置于104檔。
2. ★接通電源調(diào)零,(注意此時主機(jī)不得與屏蔽箱線路連接)在“Rx”兩端開路的情況下,調(diào)零使電流表的顯示為0000。然后關(guān)機(jī)。
3. ★將待測試樣平鋪在不保護(hù)電極正中央,然后用保護(hù)電極壓住樣品,再插入被保護(hù)電極(不保護(hù)電極、保護(hù)電極、被保護(hù)電極應(yīng)同軸且確認(rèn)電極之間無短路)。
4. ★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,
5. ★接好測試線,將測試線將主機(jī)與屏蔽箱連接好。量程置于104檔,打開主機(jī)后面板電源開關(guān)按鈕。從儀器后面板調(diào)電壓按鈕到所要求的測量電壓。(比如:GBT 1692-2008 硫化橡膠 絕緣電阻率的測定 標(biāo)準(zhǔn)中注明要求在500V電壓進(jìn)行測定,那么電壓就要升到500V)
6. ★電流電阻量程按鈕從低檔位逐漸撥高檔,每撥一次停留1-2秒觀察顯示數(shù)字,當(dāng)被測電阻大于儀器測量量程時,電阻表顯示“1”,此時應(yīng)繼續(xù)將儀器撥到量程更高的位置。測量儀器有顯示值時應(yīng)停下,在1min的電化時間后測量電阻,當(dāng)前的數(shù)字乘以檔次即是被測電阻。
7. ★測試完畢先將量程撥至(104)檔,然后將測量電壓撥至10V檔,zui后將測試按鈕撥到中央位置后關(guān)閉電源。然后進(jìn)行下一次測試。
8. ★應(yīng)在“Rx”兩端開路時調(diào)零,一般一次調(diào)零后在測試過程中不需再調(diào)零。
9. ★禁止將“RX”兩端短路,以免微電流放大器受大電流沖擊。
10. ★不得在測試過程中不要隨意改動測量電壓。
11. ★測量時從低次檔逐漸撥往高次檔。
12. ★接通電源后,手指不能觸及高壓線的金屬部分。
13. ★不得測試過程中不能觸摸微電流測試端。
14. ★在測量高阻時,應(yīng)采用屏蔽盒將被測物體屏蔽。
15. ★嚴(yán)禁在試測過程隨意改變電壓量程及在通電過程中打開主機(jī)。
16. ★嚴(yán)禁電流電阻量程未在104檔及電壓在10V檔,更換試樣。
絕緣電阻率測試儀準(zhǔn)確度: 準(zhǔn)確度優(yōu)于下表:
量程 | 有效顯示范圍 | 20~30℃ RH<80% |
104 | 0.01~19.99 | 1% |
105 | 0.01~19.99 | 1% |
106 | 0.01~19.99 | 1% |
107 | 0.01~19.99 | 1% |
108 | 0.01~19.99 | 1% |
109 | 0.01~19.99 | 1% |
1010 | 0.01~19.99 | 5%+2字 |
1011 | 0.01~19.99 | 5%+2字 |
1012 | 0.01~19.99 | 5%+5字 |
1013 | 0.01~19.99 | 10%+5字 |
1014 | 0.01~19.99 | 10%+5字 |
1014以上 | 0.01~19.99 | 10-15%+5字 |
( 超出有效顯示范圍時誤差有可能增加)測試電流準(zhǔn)確度與電阻相同測試電壓準(zhǔn)確度為 10%
絕緣電阻率測試儀使用方法
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(jī)。
6.3調(diào)零
在“Rx”兩端開路的情況下,調(diào)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(diào)零后測量會產(chǎn)生很大的誤差。一般一次調(diào)零后在測試過程中不需再調(diào)零。 完畢后關(guān)機(jī)。
6.4連接線路
接好測試線,將測試線將主機(jī)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(jī)。
6.5選擇合適的測量電壓
★電壓選擇開關(guān)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(shù)字, 當(dāng)被測電阻大于儀器測量量程時,電阻表顯示“1”,此時應(yīng)繼續(xù)將儀器撥到量程更高的位置,當(dāng)測量儀器有顯示值時應(yīng)停下,當(dāng)前的數(shù)字乘以檔次即是被測電阻值。當(dāng)有顯示數(shù)字時不要再往更高次檔撥,否測儀器會過量程,機(jī)內(nèi)保護(hù)電路開始工作,儀器測量準(zhǔn)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(diào)至10V后關(guān)閉電源
★每測量一次均應(yīng)將量程開關(guān)撥回到104“調(diào)零”檔的量程位置以免開機(jī)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(yīng)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(jié)內(nèi)容。
6.9 體積電阻和表面電阻轉(zhuǎn)換
★在測試過程中,使用屏蔽箱在進(jìn)行體積電阻和表面電阻轉(zhuǎn)換時,必須把電源關(guān)閉后進(jìn)行檔位轉(zhuǎn)換,否則會導(dǎo)致電壓沖擊到主機(jī)無法顯示或損壞。
Conditions of use
1) ambient temperature: 0 ~ 40 ℃
(2) the relative humidity: 70% or less
(3) power supply current, ac 220 v + 10% for 50 hz
The main features
U resistance measurement range 1 1 x 1018 x 104 Ω ~ Ω;
U current measuring range is 2 x 10-4 a ~ 1 x 10 to 16 a.
U small volume, light weight, high accuracy;
U unique resistance being measured, according to the current through the resistor, and double make the measurement more convenient operation;
U stable performance, easy reading;
U both can measure resistance and can measure current;
U test voltage DC10V of six kinds of choices, 50 v, 100 v, 250 v, 500 v, 1000 v;
U use simple operation, are directly under any resistance range and testing voltage reading display Numbers as a result, the bother of should be multiplied by a coefficient, makes the measuring high resistance as ordinary resistance is measured with a multimeter sample is simple.
The main criteria:
GB/T 1410-2006 of solid insulating materials Volume resistivity and surface resistivity test method
GB1672-8 liquid plasticizer of volume resistivity measurement
GB 12014 anti-static overalls
GB/T 20991-2007 test method of the individual protective equipment of shoes
GB 4385-1995, anti-static shoes, conductive technical requirements
Prevent electrostatic guide general accident of GB 12158-12158
GB 4655-2003 rubber industrial electrostatic safety procedures
GB/T 1692-2008 vulcanized rubber insulation resistance measurement
GB/T 12703.6 2010 textile electrostatic performance evaluation Part 6 fiber leakage resistance
GB 13348-2009 liquid petroleum products electrostatic safety procedures
GB/T 15738-2008, conductive and antistatic fibre reinforced plastics resistivity test method
GB/T 18044-2008 - carpet static walking behavior evaluation test
GB/T 18864-2002 - vulcanized rubber industry with antistatic and conductive products resistance limit range
GB/T 22042-2008 clothing antistatic performance surface resistivity test method
GB/T 22043-2008 clothing antistatic performance by the resistance of the material (vertical resistance) test method
GB/T 24249-2009, anti-static clean fabric
GB 26539-2011 anti-static ceramic tile Antistatic ceramic tile
Anti-static anticorrosion adhesive GB/T 26825-26825
GB 50515-50515 lead (prevention) electrostatic surface design specification
GB 50611-50611 electronic engineering antistatic design specifications
GJB 105-1998 - Z electronic products electrostatic discharge manual control
GJB 3007 a - 2009 anti-static work area technical requirements
GJB 5104-2004 radio fuze cap with antistatic coatings and cowl electrostatic general performance requirements
An overview of the
BEST - 121 type high insulation resistance measuring instrument used for measuring insulation materials, electrical products, various components of the insulation resistance; With constant temperature water bath, also can measure the different temperature of plastic wire and cable insulation resistance (no shielding layer), the instrument has high measuring accuracy, stable performance, simple operation and the advantages of high voltage short circuit input end, instruments and the maximum range of 1018 Ω resistance (test voltage is 1000 v). The meter to Q/TPGG 7-2008 high insulation resistance meter enterprise standard.
1) dc,50,100,500,1000 10 V output current high five
(2) according to the sample resistance and dc high voltage value to choose the appropriate range ratio.
(3) high input impedance dc amplifier (> 1015 Ω) the input impedance
(4), indicating meter indicates measured insulation resistance.
(5) power supply instrument parts work power.
Security considerations
4.1 be sure to read the manual before use and follow the instructions step, operating in turn.
4.2 do not use the original factory to provide the attachment, thank you for your cooperation.
4.3 during the test, the instrument measuring the dc high voltage output high voltage output, it is strictly prohibited to human exposure, so as to avoid electric shock.
4.4 to avoid test bar insulation leakage error caused by itself, by instrument measuring the input can be hung up test bar, no object collision with the outside world.
Analyte 4.5 when a high insulation resistance, and measure the instability phenomenon appear Pointers, line screen can be measured All the clip connected. For example: the insulation of the cable and cable to cable measured shell, in addition to the analyte to the two end points Don't pick up the input and the high pressure side, and then to a shell, the cable core between inner insulation instruments \"G\", to eliminate the error of measurement caused by surface leakage. Method can also be used with shielding box, is about to be tested on the metal shielding box, measuring line.
At the ends of the resistance is measured at the same time current through the resistor voltage V and I, through the internal voltage divided by the current calculation of large scale integrated circuit is complete, then put the results after A/D conversion to digital shows resistance, even at the ends of the resistance current through the resistor voltage V and I change at the same time, the display of the resistance is not like ordinary high resistance meter by measuring the change of the V voltage or current I change and change, so, even if the measured voltage, by measuring the resistance and voltage change has A little influence on the results, the measuring precision is high. In theory it can achieve zero error. The actual error can be done a few parts per thousand or very few.