欧米茄手表官方网站

精时恒达名表售后维修服务中心★★★★★名表维修官网：★★★★★温馨提示：手表是贵重饰品，如损坏，请到精时恒达名表维修服务中心接受保养，以免造成不必要的损失。

手表维修、保养、清洗我们更专业！电话预约可享受9折优惠!精时恒达名表维修中心拥有遍及全国的专业服务网络、专业的维修技术、透明的维修价格、立等可取的维修效率。

维修、保养品牌包括：百达翡丽、江诗丹顿、积家、格拉苏蒂、芝柏、万国、宝玑、真力时、欧米茄、萧邦、浪琴、劳力士、雷达、浪琴、梅花、天梭、伯爵、爱彼、卡地亚、帝舵等各大世界名表。

欧米茄手表的摆频有什么含义手表摆频也可以叫手表的振动频率，实际上都是指手表机心内的摆轮在单位时间内震动的次数，物理学上物体振动频率都是以赫兹为单位的，但手表(钟表)很少有这个习惯，通常是以半振荡来算的，也就是把左右的摆动各算一次;用赫兹(Hz)做单位的都是指全震荡，既物体在单位时间内完成全震荡次数，单位时间也是用秒，手表摆频则是习惯用次/时做单位，即一小时内摆轮左右摆动(振动)的次数，一般用A/H或V/H做单位。

摆轮在手表里是做高速的摆动，但是要是把它折算成用赫兹单位，这个数值会比较小，一般都会在2.5~4 Hz之间，机械震荡绝不同与电子，通常有个极限，不能被无限制的提高，这个精时恒达名表售后维修服务中心★★★★★名表维修官网：★★★★★和震荡物体的几何尺寸有关系，凡小而薄的东西震荡的频率也能高些，所以高频的手表摆轮直径也相对小的。

钟表和手表在发展历史上形成了许多形式的摆频，比如：小闹钟是12000A/H或14400A/H的，而早期的手表(怀表)都是18000A/H的，大约在40年前，手表摆频开始被提高，因为人们认识到摆轮的振动频率高了，对抵抗外界各种形式的干扰、变化、冲击的能力强，因此走时稳定性好，精度也能提高。

于是出现了19800A/H、21600A/H、25200A/H、28800A/H、36000A/H、43200A/H、72000A/H等等频率类型的高频或超高频的手表，应该说超过36000A/H就算是超高频的了，典型的像浪琴和真利时都比较善于做这类高频手表。

欧米茄(OMEGA)官方客户服务中心北京市西城区西单北大街甲131号西单大悦城写字楼7层702室温馨提示：欧米茄售后服务中心从创立之初就秉承精益求精顾客至上的理念。

专业化客服全天候在线为您解答时计问题。

服务中心配备先进的专业检测工具、维修设备及仪器仪表，标准的受理大厅，独立的VIP客室，舒适的休息区，以科学的维修技术，贴心的周到服务，诚信的职业操守，为您提供优质的欧米茄时计维修服务。

现在预约成功，即可尊享9折优惠！欧米茄（Omega）是国际著名制表企业和品牌，英文名omega，代表符号“Ω”。

由路易士·勃兰特始创于1848 年，拥有超过150年的悠久历史。

欧米茄(W)是希腊文的第二十四个，也是最后一个字母。

它象征着事物的伊始与终极，第一与最后。

代表了"完美、极致、卓越、成就"的非凡品质，诠释出欧米茄追寻"卓越品质"的经营理念和"崇尚传统，并勇于创新"的精神风范。

下面就让我们一起来看看欧米茄手表该怎么保养。

腕表的使用要使手动上链腕表开始运转，您只需要通过旋转表冠来上紧发条直至您感到有明显的阻力为止。

如果您的欧米茄是一款自动腕表，同样可以先手动旋转表冠为机芯上链让指针开始运转，然后让机芯的自动上链系统来做余下的事情就可以了。

请注意千万不要为自动腕表过度上链，因为在满链的情况下，自动腕表的表冠并没有明显的阻力点。

欧米茄(OMEGA)官方客户服务中心北京市西城区西单北大街甲131号西单大悦城写字楼7层702室如果需要更改欧米茄腕表的日历，只需拔出表冠进行旋转，将指针转过12点直至日历更改，接着回拨指针至三或四个小时前，您会听到一声很轻微的“咔嚓”，随后再次转动指针跨过12点直到您能看到正确的日历为止。

如果是在下午或傍晚调校日历的话，请记住在更改日历后一定要将指针转到正确的下午时间。

每一年您都需要为腕表检测一次防水。

如果您的腕表的防水等级是3 ATM（30米），我们建议您在洗澡或游泳的时候先摘下。

来自欧米茄官方服务中心的欧米茄手表维修价格
对于欧米茄来说，在中国的知名度是毋庸置疑的，曾经一位国外钟表行业的专业人士这样说过，在中国的很多城市，欧米茄总是占有最好的商场、最好的广告位，当然也有着最高的人气，在国外，通常，这些都被劳力士所占据。

欧米茄手表的客户服务，在国内也是独树一帜，最令人感叹的是：在北京、上海、广州、成都、杭州、重庆这些机器重要的商业城市里，欧米茄建立了全年无休的直营服务中心，特别是在北京，这个服务中心坐落在最繁华的王府井商圈的东方广场，工作人员超过20位，客人可以和技术人员直接面对面交流，这种服务体验是其他任何一个钟
表品牌都很难实现的。

本篇内容主要讨论了欧米茄手表的维护保养的价格，从下面的价目表我们可以了解到，欧米茄手表的最主要的完全服务费价格很简单也很透明，当然从手表本身的价格和一次完全服务的收费来说，养护的费用是合理的。

整体来看，国内的服务费价格和大多数海外国家相比较，还处于比较低的位置。

可能欧米茄总部在制定服务价格上，充分考虑了中国国情，当然，竞争对手的价格也很重要。

有一些价格在这个价目表中并没有体现，比如，更换电池价格和防水服务价格，具体的收费必须在品牌授权的服务中心，检测人员将根据实物预检后的结果进行报价。

一、钟表企业单位中国钟表协会包含机构简介、行业刊物、钟表百科知识、展会信息、供求热线、品牌之窗等栏目。

深圳钟表协会深圳市钟表行业协会成立于1987年，二十多年来，以“依靠企业，面向政府”为宗旨，致力为深圳及至国内的钟表业服务，遵循市政府的大政方针，服务企业，内引外联，建立起深圳市重要的优势传统产业，荟萃了中国众多名牌钟表企业。

中国钟表网介绍钟表珠宝制造商，销售商，提供综合新闻、展览信息、市场动态。

国际钟表收藏者协会瑞士钟表工业联合会www.fhs.ch香港表厂商会香港钟表业总会二、钟表资讯门户/社区论坛：名表论坛全国领先的钟表论坛之一。

爱表族论坛全国领先的钟表论坛之一。

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爱表网爱表网保持权威中肯，为爱表玩家提供更完善、更优质的服务。

手表门户网在这里你可以最快最先了解手表市场的新闻资讯，同时可以与其他表迷朋友互动交流。

欢迎大家来咨询、交流学习！国际腕表杂志上市新表，任务专访，品牌故事，名店精选等。

猎商钟表网有关钟表行业新闻动态和行业资讯/watch/watch.htm名表俱乐部了解、探讨名表知识。

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TABLE OF CONTENTSCNIOO SERIES TEMPERATURE MONITORSSECTION PAGESECTION 1 INTRODUCTION1 1.1General Description1 1.2Available Models1SECTION 2 INSTALLATION3 2.1Unpacking3 2.2Controller Location3 2.3Mounting3 2.4Wiring Power Circuit4 2.5Sensor Placement4 2.8Setup Procedure5SECTION 3 OPERATION63.1Operation6 3.1.1Controls and Indicators6 3.1.2Relay Output7 3.2Adjusting Setpoints7 3.3Adjusting Scan Time7 SECTION 4 SERVICE INFORMATION74.1Maintenance7 4.2Test Procedure7 4.2.1Visual Inspection7 4.2.2Functional Observation7 4.2.3Calibration Temperature9 4.2.4Calibration Alarm10 4.2.5Zone Crosstalk10 4.3Troubleshooting11SECTION 5 SPECIFICATIONS125.1Thermocouple12 5.2RTD13 5.3Parts List14 5.4Calibration Charts17 5.4.1Calibration Table 0-20000F-Type K18 5.4.2Calibration Table 0-5000F-Type K19 5.4.3Calibration Table 0-2500C-RTD20 5.5Component Layouts21 5.8Schematic231SECTION 1 INTRODUCTION1.1GENERAL DESCRIPTIONThe OMEGA® CN100 Series temperature monitor is a tempera-ture indicator with either high or low alarms. The six input channels accept independent thermocouple inputs, and there is an individual setpoint for each channel. In operation, the CN100will scan each channel for 4 to 12 seconds (via side adjustment),and the display will indicate the temperature measured by the individual thermocouples. A red LED indicates an alarm condi-tion; in the event of an alarm, scanning is halted and the relay de-energizes, until the manual reset button is depressed. The CN101 models are high temperature alarms, while the CN102units will alarm on low temperatures.The CN102 models also feature a built-in cold start alarm suppression. When the “START UP” LED is lit, the alarm action is suspended until the temperatures of each input reach their respective setpoints. Power failures for less than 30 minutes do not affect the start-up operation.1.2AVAILABLE MODELSCN101(*)-(**) HIGH ALARMCN102(*)-(**) LOW ALARMRTD#2SECTION 2 INSTALLATION2.1UNPACKINGRemove the packing list and verify that all equipment has beenreceived. If there are any questions about the shipment, pleasecall OMEGA Customer Service Department.Upon receipt of shipment, Inspect the container and equip-ment for any signs of damage. Take particular note of anyevidence of rough handling in transit. Immediately report anydamage to the shipping agent.NOTEThe carrier will not honor any claims unless allshipping materiel is saved for their examination.After examining and removing contents, savepacking material and carton in the event reship-ment is necessary.2.2CONTROLLER LOCATIONSelect a location for the controller that is free from excessiveshock, vibration, dirt, moisture, and oil. The ambient tem-perature should be between 30° and 130°F(-1° and 54°C).2.3MOUNTINGMount the controller into a 3 5/8” (92mm) square cutout. Referto Figure 2-1 for the cutout and case dimensions. The plug-in controller does not have to be removed from its housing formounting.Remove the two screws that hold the mounting slides; thenremove the slides. Insert the case into the cutout from thefront side of the panel and reinstall the two slides and twoscrews. The length of the slides must be reduced if the con-troller is to be mounted in an extra thick panel. If the control-ler has been unplugged from its housing, the top of the hous-ing can be determined by the serial tag.3.4Figure 2-1. Outline Dimensions2.4WIRING POWER CIRCUITThe controller operates on either 120 or 240 VAC, 50 to 60Hz line voltage when connected to the proper terminals.Incoming power lines should be properly fused. Refer to Figure 2-2.NOTE Fuse incoming high side of line with fast blow fuse of appropriate rating. Shorted heater or wiring will destroy the relay or output Triac.2.5SENSOR PLACEMENTProper sensor placement is essential. It can eliminate many problems in the total system. The probe should be placed so that it can detect any temperature change with little thermal lag. In a process that requires fairly constant heat output, the probe should be placed close to the heater.In processes where the heat demand is variable, the probe should be close to the work area. Experimenting with probe location can often provide optimum results.In an ice bath process, the addition of a stirrer will help to eliminate lags. Some RTD’s are shock sensitive andrequire care in handling and installation.2.2SET UP PROCEDUREWire the instrument as shown in Figure 2-2. Observe polarity(on the thermocouples red is always negative, on RTDs blackis negative) and short all the unused zone inputs (do not shortthe analog output). Turn all the setpoints fully CW on CN101models and CCW on the CN102 models. Power up theinstrument. If any zone alarms, check for open thermo-couples or setpoints turned the opposite way. Correct theproblem and push the RESET button. Observe the scanningrate and readjust if needed at the side of the instrument. Pushthe SET button and release. The green light should appear forabout 10 seconds and the display indicates the setpoint Adjustthe setpoint of the indicated zone to the desired alarm tem-perature. If more time Is needed, push the SET button to getan additional 10 seconds. Wait for the green light to disappearand repeat the procedure for all used zones. For unusedzones, leave the setpoints fully CW for CN101 models andfully CCW for CN102 models.Figure 2-2. Wiring Diagram56SECTION 3 OPERATION3.1OPERATIONThe typical control system contains the sensor, controller and the process. The thermocouple sensor produces a small voltage change proportional to the measured temperature of the process. An RTD produces a change in resistance proportional to the measured temperature of the process.This is linearized in a unique active circuit, and amplified by the controller, where it is compared with setpoint temperature. If the temperature of the sensor is above setpoint, the output circuitry will be actuated. This is indicated by means of an LED light. The digital meter displays the sensor’s process tem-perature, and when switched, displays the alarm setpoints.Six zones share common amplifier and display.3.1.1Controls and Indicators (Refer to Figure 3-1)1.LED Display (temperature or setpoint)2.Setpoint (displayed by green LED)3.Start Up button—cold start (CN102 only)4.Alarm Light (red LED)5.Zone Light (yellow LED)6.Setpoint Control7.Setpoint Enable8.Manual Alarm Reset9.Scan Time Adjust 10.Calibration LO and HI potentiometers3.1.2RELAY OUTPUTThe output relay has SPDT contacts rated 5 amps at 120Vand 3 amps at 240 VAC. These contacts can be wired toprovide power to the alarm. This is a latching relay.3.2ADJUSTING SETPOINTSSix setpoint adjustments are located on the faceplate. Theseare 15-turn potentiometers with slotted shafts. A small screw-driver is required.3.3ADJUSTING SCAN TIMEThis adjustment is located on the side of the instrument. It is a15-tum potentiometer with slotted shaft CW rotation in-creases the scan time.SECTION 4 SERVICE INFORMATION4.1MAINTENANCESome simple preventative maintenance will keep thecontroller operating properly:1. Keep the controller clean and protected from dirt, oil andcorrosion.2.Periodically recheck all electrical connections.4.2TEST PROCEDURE4.2.1Visual Inspection1.Inspect the instrument for mechanical damage.2.Make sure that all screws are tight.3.Make sure all switches and lights are properly installed.4. Make sure all labels are properly and correctly attached. 4.2.2Functional Observation1.Short the thermocouple or RTD inputs to each zone.2.Attach cord and plug to 120 VAC line terminals.3.Attach ohmmeter to C and NO relay terminals.4.Insert the power cord to 120 VAC line outlet.5.Observe that ohmmeter reads near zero ohms.6.Observe that digital display is “on” and all the digits areworking properly.77.Observe that only one scan light is on.8.Observe that digital display reading is more than zero andless than 1000F (or 0C).9.Adjust LO calibration potentiometer on the side of theinstrument until the display reads 75 ±50F (25 ±50C). Refer to Figure 4.1.10.Turn all setpoint controls 10 turns clockwise.11.If the alarm light (red) is on, push the RESET button andremove the alarm.12.Observe that zone light scans sequentially from zone tozone without skipping any zones.13.Turn the scan time control fully CW (about 20 turns) andobserve that the scan rate is more than 12 seconds.14.Turn the scan time control fully CCW and observe that thescan rate is between 2-5 seconds.15.Set the scan time at 5 seconds ±1 second.16.When the scan light comes to zone 1, push the set switchand observe that the green setpoint light comes on. Ob-serve that the light stays on for 7-15 seconds and the zone scan light stays on zone 1 as long as green light is on. 17.Push the SET button and turn the setpoint control fullyCCW; observe that indication goes to 0000 -0 +2.18.Observe that the alarm light comes on and ohmmeterresistance measures HI (open).19.Push the SET button and turn the setpoint control fully CW.Observe that the display rises gradually from 0 to full range of the instrument.20.Push the RESET button and observe that the RESET lightis off and the instrument resumes scanning.21.Repeat steps 17 through 20 for other channels.22.Switch the power on and off several times and observe thatthe unit does not go to alarm condition.23.Disconnect the thermocouple short from zone 1 andobserve that when the scan light comes to zone 1, theinstrument indicates alarm, the meter reeds full scale, and the scanning has stopped.84.2.3 Calibration Temperature1. After the instrument has been warmed up for 15minutes,attach proper thermocouple or RTD wire to zone 1.2.Connect the other end of the wire to the thermocouplesignal generator. Select proper cold junction compensa-tion. Refer to Figure 4-2. For RTD version use precisiondecade resistance box.3.Bring the instrument to alarm condition by setting themillivolt or resistance signal higher than the range of theinstrument. This will stop the scanning and keep theinstrument latched to the zone being calibrated.4.Set the millivolt source or decade resistance box to lowcalibration point as indicated on the calibration tables.5.Adjust the LO calibration potentiometer on the side ofthe instrument to read the proper typical value ±10F or±10C.6.Set the millivolt source or decade resistance box to highcalibration point as indicated on the calibration tables.7.Adjust the Hi calibration potentiometer on the side of theinstrument to read the proper typical value ±1 0F or±10C.8.If large adjustments are made on HI calibration potenti-ometer, repeat steps 4 through 7 until all errors areeliminated.9.Check all calibration points on the table to be within±.25% of the typical calibration.10.Measure that the DC voltage output corresponds to thecalibration table. For RTD version, check resistanceoutput.910Figure 4-2. Thermocouple Calibration4.2.4Calibration Alarm1. Push the SET button and adjust zone 1 setpoint to mid-range.2. Set the temperature input to .25% of range below the setpoint.3.Push the RESET button and allow the scan light to go to zone2.4.Set the input to zone 1 to .25% of range above the setpoint.5.Observe that when the zone light comes to zone 1, the unit goes into alarm condition within 4 seconds.4.2.5Zone Crosstalk1.Set zone 1 setpoint to full range.2.Set zone 1 temperature to 90% of its range.3.Set zone 2 setpoint to .25% of range above its shorted thermocouple temperature.4.Reset alarm if necessary and allow the unit to scan.5.Observe that zone 2 does not alarm.SYMPTOM1. instrument isinactive2.Display reads fullrange unit inalarm no scanning 3.No output, unit inalarm4.Reading is zero5.Reads ambient6.Alarm does notreset7.Does not readsetpoints8.Erratic indication9.Cannot reachrange10.Cannot adjustscan rateCORRECTIVE ACTIONCheck line voltageReplace fuseClean terminalReplace power trans-former.Check probeReplaceCheck relay.Clean or replaceCheck and correct.Check and correct.Check and replace.Tighten or replace.Check cable.Check ±12V regulators.Check 5.03V ±.02;adjust if necessary.Replace potentiometer PROBABLE CAUSENo line voltageBlown fuseDirty screw terminalOpen transformerprimaryOpen thermocoupleprobe or RTD probeBurned input l.C.Relay contacts orrelay coilReversed thermo-couple leadsShorted thermocoupleBroken or jammedreset switchBroken or looseswitchLoose ribbon cable.Power supply faulty5V ReferenceBroken potentiometer11SECTION 5 SPECIFICATIONS 5.1THERMOCOUPLEALARM TYPEACCURACY:INPUTS:NO. OF SETPOINTS:SCANNING RATE:RELAY:ANALOG OUTPUT:ALARM OPERATION:RESET:MAX. VOLTAGE BETWEEN INPUTS: POWER:POWER LOSS:DISPLAY:AMBIENT OPERATING RANGE: DIMENSIONS:PANEL CUTOUT:DEPTH BEHIND PANEL: TERMINALS:CN1O1 models-high alarm; CN1O2 models-low alarm±1% of range6, thermocouple6, independent for each input4 to 12 seconds per channel, side adjustmentSPDT Mechanical, rated 5A at120 VAC, 3A at 240 VAC latching 0 to 5 VDC, scans sequentially from zone to zone (non-isolated)Relay de-energized. ALARM ON LED indicator on, scan hold until reset Manual, front pushbutton10 VDC or 6 VRMS120/240 VAC, 50/60 HzUnit returns to ready state4-digit LED, 0.6”32 to 1350F3.56”H x 3.56”W x 6.25”D1/4 DIN, 3.622” x 3.622”6.25”Type 6-32 screws125.2RTDACCURACY:INPUTS:NO. OF SETPOINTS:OPEN SENSOR INDICATION: SCANNING RATE:RELAY:ANALOG OUTPUT:ALARM OPERATION:RESET:MAX. VOLTAGE BETWEEN INPUTS: POWER:POWER LOSS:RESOLUTION:DISPLAY:AMBIENT OPERATING RANGE: DIMENSIONS:PANEL CUTOUT:DEPTH BEHIND PANEL: TERMINALS:Greater than 0.5% range ±1RTD 100 ohm Platinum (European)—2 wire “Top” input connector—common to all 6 channels (negative wire). “Bottom” input connector—single inputs to each channel (positive wire)6, independent for each input Treated as alarm4 to 12s per channel, side adjustment Mechanical, rate 5A @ 120 Vac(24 Vdc), 3A @ 240 Vac (48 Vdc); SPDT type0 to 5 Vdc, non-isolatedRelay de-energized, ALARM ON LED indicator on, scan hold until reset Manual, front pushbutton10 Vdc or 6Vrms120/240 Vac, 50/60 HzUnit returns to ready state after power resumption104-digit LED, 0.6”32 to 1350F3.56” H x 3.56”W x 7” D¼ DIN, 3.622” x 3.622”6.25”Type 6-32 screws135.3PARTS LISTP.C. Board-ARESISTORS 1/4 WATT1-220 ohm (R26)2-1K (R6, R22)4- 1.5K (R9, R10, R11, R12)1- 2.2K (R17)1- 2.7K (R16)6- 4.7K (R4, R7, R8, R24, R29, R30)7-10K (R2, R3, R5, R13.2, R14. R15, R23) 1-8.2K (R27)1-18K (R28)1-33K(R1)1-66K (R19)1-lOOK (R20)1-470K (R25)PRECISION RESISTORS:1 ‘ 400K(R18)POTS:1-2K (P3) (89PR)2-1OOK (P1, P2) (89PR)CAPACITORS:1-68pF (C3)1-220pF (C2)1-4700 pF(C4)3-0.01uF (Mylar) (C5, C8, near Q14)1- 2.2/50V (C7)1-10/25V(C6)2-10/50V (C9. C10)1-100/25V (C1)2-100/50V (C13. C1411-1000/16V (C12)DiODES:9-1N4148 (D1, D2, D3, D4, D5, D6, D7, D8, D9) 4-1N4004 (D0, D11, D1Z, D13, D14)TRANSISTORS:7-2N4424(Q2,Q3, Q4, Q5, Q7, Q23, Q24) CRYSTAL:1 ‘ 3.579514INTEGRATED CIRCUITS:1-741 (Q19)1-311 (Q18)3-4518(Q 8,Q12, Q13)2-4028 (Q1, Q16)2-4040(Q11, Qi4)2-4052(Q9, Q10)1-4066(Q17)1-4011 (Q6)VOLTAGE REGULATORS:1.317LZ (Q22)1-7812(Q20)1-7819(Q21)RELAYS:1- 5 AMP Relay MS64-932TRANSFORMER:1-830957HEADERS:1-4161-14-03-P1 (Straight)1-4162-22-06-P1SOCKETS:2-16 Pin MEGA 16MPCONNECTOR:1-4002-14-00-P5P.C. Board-BPRECISION RESISTOR 1%:11K (R52)1-250K (R53)1-174K(NearP10)POTS:1-200 ohm (P10) 89PR7-10K (P4, P5, P6, P7, P8, P9, P11) 89PR15CAPACITORS:1- 2.2/50 (C25)1- 4.7/50V (C22)4-22/50 (C15, C16, C19, C23)RESISTORS 1/4 WATT6-100 ohm (R76, R77, R78, R79, R80, R81)7-1K (R29, R49, R56, R57, R58, R62, R63)1- 1.5K (R72)1- 2.2K (R64)2- 4.7 (R74, R83)5-10K (R27, R51, R59, R67, R69)17-33K (R32, R33, R34, R37, R38, R39, R40, R45, R47, R48, R50, R54, R55, R60, R61, R68, R70)3-100K (R28, R46, R91)1-220K(R35)-330K (R30)2- 1 Meg. (R36, R41)1- 1.5 Meg. (R42)2-10 Meg. (R65, R66)DIODES:6-1N4148 (D15, D16, D18, D19, D20, D23)6-1N751, 1N753 or 1N754 (Z2, Z3, Z4, Z5, Z6, Z7) TRANSISTORS:1- 2N4424 (Q29)INTEGRATED CIRCUITS:3-4051(Q24,Q30,Q31)2-uA339 (Q25,Q26)1-4066(Q27)I-0P20 (Q28)HEADERS:1-14 PIn #4161-14-03-Pi (Straight)SWITCHES:2-C&K8168(S1,S2)2-BIackCaps80252-Metal Guards G-12A2-WashersBARRIER CONNECTOR:1-A204207NLR501-A20720NLR5316CONNECTOR:1-4002-14-00-P51- Cable #455-240-14PC Board-CRESISTOR 1/4 W:7-47ohmLED’s:1-Red (MV5754)1-Green (MV5454)6-Yellow(MV5354)DISPLAY MODULE:2-MAN6740HARDWARE:1-Case1-Backplate1-Bezel1-Face Plate (Metal)1-Face Plate (Plastic)1-SprIng4-3/8” x 5/32” F/HD Screws4-3/8” x 5/32” R/MD Screws2-5/32 Nuts1-Red Lens5.4CALIBRATION CHARTSThe following charts are sample calibration charts for theranges 0-5000FJ, and 0-20000FK. For models other than theseranges,it is advisable to calibrate the units at 10% and 90% FS.1718CN101(*)-(**)5.4.1CALIBRATION TABLE 0-2000°F-TYPE-KRANGE COMPONENTSR13.4-10K R18-400K 1%R62- 1.5K R63- 2.2K R64- 1.3K R73-43K R84-13.3K R85-27K R86-110K 1%195.4.3CALIBRATION TABLE 0-500°F-TYPE JRANGE COMPONENTSR13.2-10K R18-400K 1%R62-1K R63-1K R64- 2.2K R73-33K R84-OUT R85-10K R86-350K 1%20NOTES Actual temperature rounded off to whole digit (no decimal point). Accuracy better than 0.5% of 250C-2250C range.Recommended lead wire distances to obtain stated accuracy with proper calibration. Use copper wire. Based on ambient temperature.AWG Distance 14150ft 2050ft 2425ft5.4.3CALIBRATION TABLE 0-250°C-RTD275.5COMPONENT LAYOUT-P .C. Board A1.Select nearest standard range resistor (e.g. 800° = R13.3).2.Set setpoint pot full CW (maximum).3.Adjust P2 for required range readout.4.Reduce R18 If range cannot be reached.5.5COMPONENT LAYOUT-P.C. Board B5.6SCHEMATICM0666/0702。

欧米茄超霸上旋注意事项欧米茄超霸上旋是一款备受喜爱的手表品牌，具有高精准度和卓越的设计。

欧米茄超霸上旋的傲人性能和独特功能使其成为人们追求时尚与功能的首选。

然而，在佩戴和使用欧米茄超霸上旋手表时，有一些注意事项需要遵守，以确保其功能和外观的长期保持。

首先，对于新购买的欧米茄超霸上旋手表，使用前应仔细阅读使用说明书，了解其功能和特点。

使用说明书将告知您如何正确设置和操作手表的各种功能，以及如何维护和保养手表。

其次，要保持欧米茄超霸上旋手表的正常运转，建议每天佩戴至少8小时，以确保其自动上弦机构的正常工作。

手表应离开长时间不佩戴时，应保持手表的正常运转，以避免机芯油脂干燥和凝固。

另外，当不佩戴欧米茄超霸上旋手表时，应将其放置在干燥、清洁和避光的地方。

手表应远离高温、潮湿和有磁性的环境，避免对手表产生不利影响，例如产生腐蚀和磁化。

对于欧米茄超霸上旋手表的日常佩戴和使用，避免将手表暴露在任何剧烈的冲击和振动下。

这可能会导致手表的功能失灵或造成机芯损坏。

在进行运动、敲打或从高处跌落时，最好取下手表以保护其不受伤害。

此外，避免长时间暴露在日光下，因为长时间的紫外线照射会影响手表的表盘和表带颜色的变化。

应定期清洁手表表带，以避免污渍和污垢影响手表的外观。

对于欧米茄超霸上旋手表的维护和保养，建议每隔一段时间（大约每3-5年）对手表进行维修和维护。

这包括手表的清洁、油脂更换、机芯调整和防水测试。

选择一家认可的维修中心或专业的维修师傅来进行手表的检修和维护。

最后，对于欧米茄超霸上旋手表的使用，要注意避免与化学品接触，例如香水、油漆和清洁剂等。

这些化学品可能会腐蚀手表的外观和材质，对手表产生不可修复的损坏。

总之，欧米茄超霸上旋手表作为一款高端的手表品牌，其使用和维护需要一定的注意事项。

定期保养和正确佩戴手表，将会延长手表的使用寿命并保持其正常运转和外观。

购买欧米茄超霸上旋手表是一项长期投资，正确使用和维护手表将为您带来更多的价值和享受。

如何确定我购买的是正宗欧米茄腕表？遵循如下步骤可以确定您购买的是正宗欧米茄腕表：- 只在欧米茄指定经销商处购买欧米茄腕表。

- 申请一张信用卡大小的保修卡，完整填写8位系列编号、手表编号以及经销商的完整姓名和地址。

- 如果您想确定腕表是否正宗，请携同欧米茄腕表及保修卡到指定的维修中心，让我们的维修服务员确定您购买的是否为正宗欧米茄腕表。

客户服务网络返回页首计时表（CHRONOGRAPH）与瑞士官方天文台认证腕表（CHRONOMETER）有何区别？计时表（CHRONOGRAPH）带有显示时、分和秒的指针，它们与机械系统一起透过中央计时指针测定逝去时间，可以记录到秒，并且具有30分钟和12小时定时装置。

瑞士官方天文台认证腕表（CHRONOMETER）是以不同角度，成功通过温度、精确度和防水功能测试后，获得COSC（瑞士官方天文台）正式颁发的等级证书的腕表。

通过这些测试至少需要15天时间。

返回页首计时腕表上的按钮具有什么功能？位于2点钟位置的按钮可以启动或停止计时功能，位于4点钟位置的按钮用于重新计时。

返回页首海马系列专业计时腕表的排氦气阀门具有什么功能？排氦气阀门由欧米茄为职业潜水员专门研发。

在深海潜水过程中，潜水员往往会在潜水钟内进行数天作业。

在到达水平面之前，潜水钟内充满氦气和氧气的混合气体。

氦气分子轻于空气，可以渗入手表，并在大气压力的作用下将水晶镜面推出。

在到达水平面之前打开氦气排放阀可以将氦气排放，从而防止手表进水。

返回页首自动上链机芯与手动上链机芯有何区别？自动上链机芯与手动上链机芯的区别在于上链方式的不同。

手动上链腕表需要每天人工上链，而自动上链腕表则具有内部摩打，利用手腕的运动来自动上链。

自动上链腕表通常具有至少40小时的动力储存，即使不佩戴手表，仍然能够备有足够的能量储存以保持稳定的运行。

返回页首欧米茄腕表是否具有防振功能？是。

欧米茄腕表可以承受重量为5000克的振动。

返回页首欧米茄腕表是否具有防磁性能？是。