Spice Charger Standard 1.0

spice参数说明（English）Protel Knowledge BaseItem - 2012Logged: 5-Aug-1999 Revised:23-Oct-2001Item categories: Mixed Mode SimulationProducts affected: Protel 99 (All Versions);99 SE (All Versions);Operating systems affected: Windows 2000;95;98;NT;Query: The circuit simulator supports a large number of SPICE variables. Although all the variables have default values, you may find that they need to be adjusted under some circumstances. This item lists these SPICE variables.Answer: Following is a list of all the available SPICE variables. To change a variable click on the Advanced button in the Analyses Setup dialog.Spice Variable What it doesABSTO Sets the absolute current error tolerance. Set ABSTOL=RELTOL (lowest current magnitude in the circuit). Default=1picoampACC Causes accounting and run-time statistics to be displayed. Default=NO (no display)ADCSTE Minimum step size required to register an event on the input of the internal A/D converters. Default=0.01 volts AUTOPARTIA Enables automatic computation of partial derivatives for XSPICE code modules. Default=NO BADMOS Uses the older version of the MOS3 model with the “kappa” discontinuity. Default=NO BOOL Sets the high output level of a Boolean expression. Default=4.5VBOOL Sets the low output level of a Boolean expression. Default=0.0VBOOL Sets the input threshold level of a Boolean expression. Default=1.5VBYPAS Enables device bypass scheme for nonlinear model evaluation. Default=1 (on)CHGTO Provides lower limit on capacitor charge or inductor flux; used in the LTE timestep control algorithm. Default=1.0e-14 coulombsCONVABSSTE Sets limit of the absolute step size in solving for the DC operating point convergence for code model inputs. Default=0.1CONVLIMI Disables convergence algorithm used in some built-in component models. Default=NOCONVSTE Sets the limit of the relative step size in solving for the DC operating point convergence for code model inputs. Default=0.25CURRENTMN Sets scale factor used to determine min supply current when value not specified in SimCode model. Default=1.5 CURRENTMX Scale factor used to determine max supply current when value not specified in SimCode model. Default=0.5 DEFA Sets the MOS drain diffusion area. Default=0.0 sq meters DEFA Sets the MOS source diffusion area. Default=0.0 sq meters DEF Sets the MOS channel length. Default=100.0 micrometer DEF Sets the MOS channel width. Default=100.0 micrometerDRIVEMN Sets scale factor used to determine min output drive capacity when value not specified in SimCode model. Default=1.5DRIVEMX Sets scale factor used to determine max output drive capacity when value is not specified in SimCode model. Default=0.5DRVMNTYM Temporary global override for output drive capacity index on SimCode devices (0=default, 1=min, 2=typ, 3=max). Default=0GMI Sets min conductance (max resistance) of any device in the circuit. Also sets value of the conductance that is placed in parallel with each pn junction in the circuit. Default=1.0e-12 mhos. Note: Raising this value may help with convergence, but decreases accuracyGMINSTE Sets the number of steps in the GMIN stepping algorithm. When set to 0, GMIN stepping is disabled, making source stepping the simulator’s default DC (opera ting point) convergence algorithm. Default=10 stepsIMNTYM Temporary global override for supply current index on SimCode devices (0=default, 1=min, 2=typ, 3=max). Default=0ITL Sets Op Point Analysis iteration limit. Default=100 iterations. Note: This may need to be raised as high as 500 for many circuitsITL Sets DC Analysis iteration limit. Default=50 iterations. Note: This may need to be raised as high as 200 for some circuits ITL Sets lower Transient Analysis iteration limit. Default=4 iterations. Note: This is not implemented in SPICE3. It is provided for compatibility in creating SPICE2 netlistsITL Sets Transient Analysis timepoint iteration limit. Default=10 iterations. Note: Raising this value to 100 or more may help to eliminate “timestep too small” errors improving both convergence and speedITL Sets Transient Analysis total iteration limit. Default=5000 iterations. Note: This is not implemented in SPICE3. It is provided for compatibility in creating SPICE2 netlistsKEEPOPINF Retains operating point information when an AC Analysis is run. Note: This is useful if the circuit is large and you do not want to run a redundant Op Point Analysis. Default=NO (run OP each time)LDMNTYM Temporary global override for input loading index on SimCode devices (0=default, 1=min, 2=typ, 3=max). Default=0LIS Displays a comprehensive list of all elements in the circuit with connectivity and values. Default=NO (no list)LOADMN Sets scale factor used to determine min input loading (max input resistance) when value not specified in SimCode model. Default=1.5 (150% of typical input resistance) LOADMX Sets scale factor used to determine max input loading (min input resistance) when value not specified in SimCode model. Default=0.5 (50% of typical input resistance) MAXEVTITE Sets the max number of event iterations for DC (operating point) convergence. Default=0 MAXOPALTE Sets the max number of analog/event alternations for DC (operating point) convergence. Default=0 MINBREA Sets the min time between breakpoints. Default=0 seconds (sets the time automatically) NOOPALTE Enables DC (operating point) alternations. Default=NONOOPITE Skip directly to GMIN stepping algorithm. Default=NO (don’t skip)OPT Displays a list of all standard SPICE3 Option parameter settings. Default=NO (no list)PIVRE Sets relative ratio between the largest column entry in the matrix and an acceptable pivot value. The value must be between 0 and 1. Default=1.0e-3. In the numerical pivoting algorithm the allowed min pivot is determined byEPSREL=AMAX1(PIVREL*MAXVAL, PIVTOL) where MAXVAL is the max element in the column where a pivot is sought (partial pivoting)PIVTO Sets the absolute min value for a matrix entry to be accepted as a pivot. Default=1.0e-13PROPMN Sets scale factor used to determine min propagation delay when value is not specified in SimCode model. Default=0.5 (50% of typical propagation delay)PROPMX Sets scale factor used to determine max propagation delay when value is not specified in SimCode model. Default=1.5 (150% of typical propagation delay)RAMPTIM Controls turn-on time of independent sources and capacitor and inductor initial conditions from zero to their final value during the time period specified. Default=0.0 seconds RELTO Sets relative error tolerance of the program. The value must be between 0 and 1. Default is 0.001 (0.1%). Larger values mean faster simulation time, but less accuracyRSHUN Value in ohms of resistors added between each circuit node and ground, helping to eliminate problems such as “singular matrix” errors. In general, the value of RSHUNT should be set to a very high resistance (1e+12). Default=0 (no shunt resistors)SIMWAR A nonzero value allows SimCode warning messages to be displayed at run time. SimCode warnings may include information concerning timing violations (tsetup, thold, etc.) or indicate supply voltage dropping below device specifications. Default=0SRCSTE Sets the number of steps in the source stepping algorithm for DC (operating point) convergence. Default=10 stepsTEM Sets the actual operating temperature of the circuit. Any deviation from TNOM will produce a change in the simulation results. Default=27°C. Note: TEMP can be overridden by a temperature specification on any temperature dependent instanceTNO Sets the nominal temperature for which device models are created. Default=27°C. Note: TNOM can be overridden by a specification on any temperature dependent device model TPMNTYM Temporary global override for propagation delay index on SimCode devices (0=default, 1=min, 2=typ, 3=max). Default=0TRANMN Sets scale factor used to determine min transition time when actual value is not specified in SimCode model. Default=0.5 (50% of typical transition time)TRANMX Sets scale factor used to determine max transition time when actual value is not specified in SimCode model. Default=1.5 (150% of typical transition time)TRTO Used in the LTE timestep control algorithm. This is an estimate of the factor by which SPICE overestimates the actual truncation error.Default=7.0TRYTOCOMPAC Applicable to the LTRA model. When specified, the simulator tries to condense LTRA transmission line’s past history of input voltages and currents. Default=NO (don’t compact)TTMNTYM T emporary global override for transition time index on SimCode devices (0=default, 1=min, 2=typ, 3=max). Default=0VNTO Sets the absolute voltage tolerance of the program. Set VNTOL= RELTOL* (lowest voltage magnitude in the circuit). Default=1 microvoltPrint...Close Window。

ContentsDescription P a ge General description . . . . . . . . . . . . . . . . . . . . . . . .1Electrical noise and voltage transients . . . . . . . . .2Power-Suppress 600 benefits . . . . . . . . . . . . . . . .2Harmonics and K-Factor ratings . . . . . . . . . . . . . .2High-efficiency advantage . . . . . . . . . . . . . . . . . . .2Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . .3Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Warranty . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Product selection . . . . . . . . . . . . . . . . . . . . . . . . .4Technical drawings . . . . . . . . . . . . . . . . . . . . . . . .5General descriptionEaton’s Power-Suppress 600 series are high-efficiency, K-rated, power conditioning transformers specifically designed to provide a high degree of electrical noise attenuation and transient voltage suppression to sensitive electronic loads . In addition, the Power-Suppress 600 is offered with a K-factor rating of K13 for full compatibility with harmonic-rich, nonlinear loads .The Power-Suppress 600 series meets andexceeds the high-efficiency levels defined by the U .S . Department of Energy (DOE) 2016 Standard, thus providing true energy savings under both linear and nonlinear loads .Power-Suppress 6002Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Electrical noise and voltage transientsElectrical noise is a high-frequency, low-energy signal that travels on the power and ground lines of an electrical distribution system . While conditions external to a facility can cause electrical noise and impulses, the majority of these disturbances are generated by electronic and electrical equipment within the facility . Examples of this equipment include photocopiers, lighting controls, variable speed drives, and motor loads .The electrical noise produced by this equipment can harm digital circuitry, because the high frequencies can easily be coupled into the signal path and cause data corruption . This corruption often results in system upset, unexpected restarts, and nuisanceequipment behavior . In addition to electrical noise and impulses, high-energy transients may also exist that lead to component failurewithin critical electronics and controls .Electrical noise and voltage transients illustratedPower-Suppress 600 benefitsEaton’s Power-Suppress 600 is designed with two full-length electrostatic shields that provide 126 dB common mode noise attenuation . An optional third shield is available that increasesattenuation by 20 db for a total of 146 db . The Power-Suppress 600 not only attenuates noise from input to output, but also prohibitssystem back-feed from noise generating loads . In addition, an optional pre-wired, high-frequency filter and category C3 surge protectiondevice (SPD) provide your critical loads with optimum protection from noise and impulses, as well as high-energy voltage transients .The Power-Suppress 600’s noise attenuation is critical for any application in which digital circuitry is used to scan, measure or monitor critical data, control a critical process, or reproducehigh-quality audio/video signals .Isolation shield benefit levelsHarmonics and K-Factor ratingsCommercial and industrial facilities contain a myriad of electronic and electrical equipment that represent nonlinear loads . Examples include non-PFC power supplies found in computers and lighting, as well as high-powered electronic controls . Linear loads draw current throughout the entire 60 Hz waveform, tracking the applied voltage . Nonlinear loads draw current in short intervals with extraordinarily high magnitudes (see illustration below), generating harmonics (multiples of the fundamental 60 Hz) . These harmonics create additional heat within the transformer windings, and may increase the output neutral current up to 200% on three-phase models with line-to-neutral loading .T o overcome this safety problem, a Power -Suppress 600 transformer is designed specifically to handle the harmonics, heating effects,and increased output neutral current created by nonlinear loads . Its K13rating allows it to be properly applied for both linear and nonlinear loads .High-efficiency advantageThe Power -Suppress 600 is uniquely designed to provide efficiencies that meet and exceed the DOE 2016 Standard .Energy savings are easily seen when comparing the power losses of the Power -Suppress 600 to a transformer only meeting the DOE minimum efficiency . For example, Eaton’s 150 kVA Power -Suppress 600 tested 99% efficient at 35% load; that’s only 530 W of losses compared to the minimum required efficiency of 98 .83%, which represents 621 W of losses . The Power -Suppress 600 power losses were 17% lower, which reflect a decrease in operating costs over the life of the transformer .Efficiency for a given kVA size will vary from transformer to transformer, but the Power -Suppress 600’s design allows its efficiency to still exceed the minimum DOE mandated level .Power-Suppress 600 efficiency examplesote: N The chart above illustrates the efficiency measured on three sample transformers . The “green dots” are positioned to reflect the DOE minimum efficiencies in comparison to the Power-Suppress 600 efficiencies measured .DOE 2016 minimum efficiency levels at 35% of nameplate-rated load with a transformer operating temperature of 75 °C: 45 kVA (98 .40%); 75 kVA (98 .60%); 150 kVA (98 .83%) .3Technical Data TD158040ENEffective August 2022Power-Suppress 600 EATON SpecificationsT able 1. SpecificationsDescriptionSpecificationThree-phase power outputkVA 15, 30, 45, 75, 112, 150, 225, 300, 500Operating frequencyFrequency60 Hz ±5%Note: 50 Hz models available; consult factory.Electrical inputThree-phase 15–150 kV 225–500 kVA 208, 240, 480, or 600 Vac (delta)480, 600 Vac (delta)Voltage taps 15–300 kVA (exception)(2) taps 2.5% full capacity above nominal (4) taps 2.5% full capacity below nominal 112–150 kVA at 208 Vac or 240 Vac (1) tap 5% full capacity above nominal (2) taps 5% full capacity below nominal 500 kVA(1) tap 3.5% full capacity above nominal (2) taps 3.5% full capacity below nominalNote: Special voltages available.Electrical outputThree-phase 208/120, 480/277, or 600/347 Vac (wye)Note: Special voltages available; consult factory.Output impedance 2% to 3.5% typicalOutput distortion Less than 1.0% THD added under linear load Load regulation 2% typical, no load to full loadOverloadUp to 500% for 10 seconds, 1000% for 1 cycleIsolated neutralEstablishes a new neutral to ground bond on the transformer’s outputNoise attenuationCommon mode126 dB—Standard double (2) shield 146 dB—Optional triple (3) shieldTransverse mode3 dB down at 10 kHz, decaying 20 dB per decade; decaying 40 dB with “SPD with high frequency” option Environmental conditionsOperating ambient –25 °C to +40 °CTemperature relative humidity 0 to 95% noncondensingAltitudeUp to 5000 feet above sea level without de-rating Audible noise45 to 55 dBA at 1 meter, depending on kVA sizeEfficiencyU.S.Meets and exceeds U.S. Department of Energy (DOE) 2016 high- efficiency standards identified under DOE 10 CFR Part 431CanadaMeets and exceeds CSA ® Standard C802.2-12K-factor ratingsRatings K13Neutral sizeTwice the ampacity of the secondary phase conductor on three-phase modelsHarmonic handling capabilityDesigned to handle the following percentages of fundamental and harmonic currents, without exceeding temperature rise limits.K13Fundamental 60 Hz 100%Harmonics 3rd Harmonic: 40%11th Harmonic: 10%5th Harmonic: 42%13th Harmonic: 8%7th Harmonic: 25%15th Harmonic: 3%9th Harmonic: 7%17th Harmonic: 2%Harmonic eliminationProtects the loads from voltage and current distortions caused from triplen harmonics (3rd, 9th, 15th, 21st, etc.)Description SpecificationGeneralTransformer construction All copper winding and conductor construction, dry-type transformer with M3, grain-oriented silicon steel Electrical connection Copper bus provided for hardwired input and output.Note: Customer to provide lugs.Basic impulse level 10 kV Temperature rise 135 °C rise above ambient, under nonlinear loading per UL ®1561 standardCooling Convection cooled Enclosure Standard, floor mounted: NEMA ® 2 up to 225 kVA;NEMA 1 at 300 kVA and 500 kVANote: Optional NEMA 3R outdoor enclosure available up to 225 kVA.CertificationsSafety UL 1561 Listed, labeled for operation with or below a specific K-factor rating; cUL ® listed to CSA Standard C22.2, No. 47-13RoHS Compliant QualityISO 9001:2015T able 2. Linear lossesLoad %EfficiencyCoreLoadBTU/hr15 kVA2597.9157.9723.952795098.0857.5992.505127597.7057.17213.8992410097.1156.69400.53155930 kVA 2598.3091.3139.854475098.3990.79158.608507598.0290.21369.51156810097.4889.54695.40267745 kVA 2598.57106.0759.765655098.50105.46242.4911877598.06104.76571.78230710097.45103.931092.98408175 kVA 2598.78163.4073.018065098.81162.63297.5215697598.51161.74704.06295210098.06160.751352.525160112.5 kVA 2598.81255.8191.7711855098.93254.85371.5821367598.72253.78867.18382210098.40252.551630.046420225 kVA 2598.95435.50164.1920455099.03433.82670.3337657598.82431.921576.93685010098.50429.842997.4711,687300 kVA 2599.00563.00175.0025155099.20561.00709.0043317599.00560.001651.00753710098.80558.003089.0012,4354Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Isolated output neutralThe Power-Suppress 600 establishes a new neutral to ground bond on the transformer’s output, meeting the definition of a separately derived power source as defined in NFPA 70T , Article 250.20 (D). Its isolated wye secondary provides a new single-point ground reference to which critical load neutral and ground conductors are wired, thus preventing potential N-G circulating currents.Application noteThe Power-Suppress 600 may be paired with a transformer-less uninterruptible power system (UPS). This is critical if the input neutral to the UPS is shared with other electrical noise-producing loads, creating noise voltage with respect to ground. Thetransformer provides an isolated, clean neutral bond for IT/data center equipment. Locating the transformer at the input or output of the UPS is dictated by the UPS configuration and groundingrequirements. In either case, the Power-Suppress 600 ensures that the critical load is provided with the highest power quality, even when the UPS is in bypass mode.Application supportIf you are having trouble understanding a problem related topower quality, reliability, or energy management, call an application engineer at 1-800-809-2772 (option 5, sub-option 2).OptionsOutput SPD with high-frequency filterSPD network comprised of high-energy metal oxide varistors (MOVs) with <5 nanosecond response time and a maximum peak surge current capacity of 40 kA (8/20 μs) per mode. High-frequency filter increases transverse mode noise attenuation to 3 dB down at 10 kHz, decaying 40 dB per decade. A single status indicator light is provided to show that the SPD and filter are fully operational and functioning properly.ote: N SPD with peak surge current capacity ratings up to 100 kA, UL 1449 Listed, Type 2. Includes EMI/RFI filtering, Form C relay contacts, and LED protection status indicators. Contact factory for specifications. Not available for 300 kVA and 500 kVA models.High/overtemperature alarm contactsThermal warning alarm contacts for customer’s hardwired connection. Thermal sensors at 180 °C and 200 °C.ote: N Not available for 300 kVA and 500 kVA models.NEMA 3R enclosureUL Listed NEMA 3R enclosure for outdoor installations. Enclosure is constructed using 14-gauge galvanized steel and provided with a durable powder coat paint finish.ote: N Not available for 300 kVA and 500 kVA models.IR scanning windowInfrared, transparent polymer IR window(s) for safe routine thermal scanning of transformer connections under load, without exposing personnel to arc flash hazards. Durable IR windows are industrial-grade with a patented reinforced grill, fully impact-resistant, and UL and cUL Listed. This option adds 2 inches to the depth of the 112 kVA–225 kVA enclosure.ote: N Not available for 300 kVA and 500 kVA models.Special designsSpecial voltage configurations are available, including “high leg delta” designs.ote: N Not available for 300 kVA and 500 kVA models.WarrantySeller warrants the Power-Suppress 600 to be free from failure due to defects in workmanship and material for 1 year from the date of installation of the product or 18 months from the date of shipment of the product, whichever occurs first.These units are sold in accordance to Eaton Selling Policy 25-000.Product selectionT able 3. Catalog numbering system5Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Technical drawingsFigure 1. 15–30 kVA NEMA 2 SPD alarm contacts6Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 2. 15–30 kVA NEMA 3R SPD alarm contacts7Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 3. 45–75 kVA NEMA 2 SPD alarm contacts8Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 4. 45–75 kVA NEMA 3R SPD alarm contacts9Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 5. 112–225 kVA NEMA 2 SPD alarm contacts10Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 6. 112–225 kVA NEMA 3R SPD alarm contacts11Technical Data TD158040ENEffective August 2022Power-Suppress 600EATON Figure 7. 300 kVA NEMA 1Eaton1000 Eaton Boulevard Cleveland, OH 44122 United StatesEaton .com© 2022 EatonAll Rights ReservedPrinted in USAPublication No . TD158040EN / Z25340 August 2022Eaton is a registered trademark.All other trademarks are propertyof their respective owners.Power-Suppress 600Technical Data TD158040EN Effective August 2022Figure 8. 500 kVA NEMA 1。

Mobile Power. Perfected.User GuidePart No. 7595-0448Performance SeriesBattery ChargerCopyright © 2016All rights reservedOriginal Instructions: EnglishAll rights reserved throughout the world. No part of this document may be stored in a retrieval system, transmitted, copied or reproduced in any way, including, but not limited to, photocopy, photograph, magnetic or other record without the prior agreement and permission in writing of the Vitec Group Plc.DisclaimerThe information contained in this manual is believed to be correct at the time of printing. Vitec Videocom Inc. reserves the right to make the changes to the information or specifications without obligation to notify any person of such revisions or changes. Changes will be incorporated in new versions of the publication.We are making every effort to ensure that our manuals are updated on a regular basis to reflect changes to the product specifications and features. Should this manual not contain information on the core functionality of your product, please let us know. You may be able to access the latest revision of this manual from our website.Vitec Videocom Inc. reserves the right to make changes to product design and functionality without notification. TrademarksAll product trademarks and registered trademarks are the property of The Vitec Group Plc.All other trademarks and registered trademarks are the property of the respective companies.Published by:Vitec Videocom Inc.Email:*************************************ContentsSafety (2)Warning Symbols Used in these Instructions (2)Intended Use (2)About this user guide (4)Introduction (4)Important (4)Anton/Bauer Battery Compatibility (4)Third Party V-Mount Compatibility (5)Components and Connections (6)Wi-Fi Capability (6)Mini USB Port (6)DC XLR Output (6)AC Mains Power (6)Attaching a Battery to the Charger (7)To Release the Battery (7)Operation (8)Self-Test (8)Three Stage Charging Methodology (8)Video Battery Touchscreen (9)Video Battery Touchscreen (10)Battery Testing or Calibration (11)System Settings (12)Global Transport Feature (Quad Only) (13)Auto-Dim and Auto-Shutoff (14)Powering DC Auxiliary Equipment (15)Technical Specifications (16)After Sales Support (17)General Notices (18)2SafetyImportant information on the safe installation and operation of this product. Read this information before operating the product. For your personal safety, read these instructions. Do not operate the product if you do not understand how to use it safely. Save these instructions for future reference.Warning Symbols Used in these InstructionsSafety cautions are included in these instructions. These safety instructions must be followed to avoid possible personal injuryand avoid possible damage to the product.WARNING! Where there is a risk of personal injury or injury to others, comments appear supported by the warning triangle symbol. Where there is a risk of damage to the product, associated equipment, process or surroundings, comments appearsupported by the word ‘Caution’.ELECTRIC SHOCK Where there is a risk of electric shock, comments appear supported by the hazardous voltage warning triangle.Intended UseThe Anton/Bauer ® Performance Series Chargers deliver all of the proven reliability of previous Anton/Bauer chargers in a portable power system addressing both Gold Mount ® and V-mount configurations. The technology advancements of this charger deliver the features and performance of several essential power products in one economic and portable package while reducing power consumption.Electrical ConnectionWARNING! Risk of electric shock. Do not removecover, no user serviceable parts inside the product.WARNING! Risk of electric shock. Always check cables for signs of damage. Damaged cables cancause personal injury and/or damage the equipment.WARNING! It is the responsibility of the localorganisation to ensure that the product is periodically checked for electrical safety in accordance with localregulations.CAUTION! This product must be connected to apower supply of the same voltage (V) and current (A) as indicated on the product. Refer to the technicalspecifications for the product.CAUTION! AC Mains plug or appliance coupler is to be used as a power disconnect device; make sure it isreadily accessible.CAUTION! All data connections to other devices must be made using shielded cables.Safety CAUTION! Slots and openings are intended forventilation purposes to ensure reliable operation ofthe product and protect it from overheating. Do notblock or cover any slots and openings.WARNING! Protect the product from water, moistureand dust. The presence of electricity near water canbe dangerous.WARNING! Charger must not to be exposed todripping or splashing and not to be used near objectsfilled with liquids.WARNING! When cleaning the product, use a softdamp cloth only. Do not wet the exposed metal partsof the charging unit. Do not use solvents, detergentsor scouring agents.MaintenanceWARNING! The fitting of non-approved parts oraccessories, or the carrying out of non-approvedalterations or servicing can be dangerous and couldaffect the safety of the product. It may also invalidatethe terms and conditions of the product warranty.RISK OF ELECTRICAL SHOCK: Refer servicing toqualified service personnel.3About this user guideIntroductionThe Anton/Bauer® Performance Series Chargers deliver all of the proven reliability of previous Anton/Bauer chargers in a portable power system addressing both Gold Mount® and V-mount configurations. The technology advancements of this charger deliver the features and performance of several essential power products in one economic and portable package while reducing power consumption.This user guide covers the safe and reliable operation of the Performance Series chargers.ImportantSpecial precautions and handling instructions are contained in this user guide and should be strictly adhered to for safe and reliable operation. Contact Anton/Bauer Customer Support Group with any questions regarding this product.Anton/Bauer Battery CompatibilityAnton/Bauer Performance Series Chargers are compatible with all Digital Series and most Logic Series® Anton/Bauer batteries. For questions onproduct compatibility please contact the Anton/Bauer Customer Support Group.4About this user guideThird Party V-Mount CompatibilityWe have tested specific competitor V-Mount batteries and verifiedtheir compatibility (see table below).However, there is no guarantee that the Performance SeriesCharger can charge any third party battery to 100% full capacity.The list below does not constitute all of the potential compatiblebatteries, therefore it is the recommendation of Vitec Videocom toutilize Anton/Bauer batteries solely with compatible Anton/Bauerchargers to avoid any potential performance degradation.57Attaching a Battery to the ChargerTo attach a battery to either the Gold Mount or V-Mount adapter on the charger:1. Slide the battery onto the adapter, ensuring the Gold MountT-stud or V-Mount are aligned in the corresponding slots.2. The battery is fully engaged when the latch makes an audible“click”.Components and ConnectionsTo Release the Battery1. Depress the latch and hold.2. Slide the battery off the connector.8Self-TestUpon applying AC mains power, the charger will initiate a briefself-test mode. Self-test mode is complete when the charger screen displays battery information on the position being used.ChargingAs with all Anton/Bauer chargers, charging with a Performance Series Charger is fully automatic. Mount any applicable battery to any open position on the charger and the Performance Series Charger will automatically determine the appropriate charge routineand execute it.In some cases a battery may be discharged to a very low voltage level causing the battery to be unrecognizable to the charger when first attached.Three Stage Charging MethodologyIn general, the Performance Series Chargers (Gold Mount and V-Mount) will deliver a three stage charge routine to each battery.will deliver a high rate charge matched to the capabilities of the battery (typically a one or two hour rate,depending on battery type). During this stage, six separate cutoff methods are in operation, simultaneously, ensuring the fastest, safest charge for that battery.charging is a BALANCING or “stabilizing” mode which calculates each battery pack type to offset any imbalance of the battery’s cells, created by unequal self-discharge or any capacity mismatch of the individual cells in the pack. This stage can vary in duration from zero to as much as 16 hours, depending on the condition of the battery. The Stage Two charge reduces current automatically as the battery charges maintaining the cells at a safe voltage level. A battery will typically leave Stage Two in 2-4 hours under average operating conditions.charging is the Anton/Bauer exclusive Lifesaver ® maintenance mode. This patented pulse routine keeps batteries fully charged, free from self-discharge - indefinitely - without damaging heat associated with a so-called “trickle charge”. The Stage Three programming monitors the self-discharge of thebattery, providing charge only when the battery self-discharges toabout 95% of its capacity.Anton/Bauer recommends that batteries remain on the charger and plugged into AC mains power for best results. The Lifesaver mode will keep them 100% charged.Picking the right battery: A check mark on the battery symbol indicates the best battery to use first.Removal of AC Mains PowerIf AC mains power is removed, it is highly recommended that the batteries are removed from the charger, thus avoiding any additional self-discharge of the battery.Operation9OperationVideo Battery TouchscreenAll Performance Series Chargers come standard with a touch screen interface. The intuitive interface displays all critical battery data and access to all charger functions.When a battery has been attached to the charger the display willshow the current status of the battery.Wait (Prepaaring to discharge)Transportation discharge (Battery is discharging)Transportation complete (Reached the set discharge level)1234610Video Battery TouchscreenWhen a battery has been selected the following details are available.% Charged100% 6.0 Ah5.8 Ah 5.8 Ah DischargeNo 23° C 10110852-201510.0Nameplate LearnedPresent StatusCalibrate TemperatureCycles Serial No DOMFW REV:Digital G90112111098723456Operation11Battery Testing or CalibrationTo manually run a standard test:1. Attach a battery to any open chargeposition and touch the related battery icon on the charger LCD.2. Touch the battery test icon to begin thestandard test.3. When testing is complete, discharge and test data will berevealed in the screen.OperationSystem SettingsSystem Settings access information such as the charger softwarerevision, Wi-Fi settings, Transportation Discharge (quad only)Auto-Dim and Auto-Shutoff functions.Operation11213OperationGlobal Transport Feature (Quad Only)Use this setting to discharge all batteries to a desired charge state in order to transport safely.1. With one or more batteries mounted on the charger, press thesettings button (1).2. On the System Settings window Press the On, Off button (2) onGlobal Trans enable.Off23. On the Confirm Global Trans Mode window use the arrows toadjust the desired discharge percentage.4. Press the green tick button to activate Transportation Mode orthe red cross to de-activate the mode.5. 6. Press the home button and the screen will revert to the homescreen. The battery symbols will display the airplane symbol to confirm the discharge process has begun. The cooling fan will operate while discharging takes place.Wait.Transportation discharge.Transportation complete7. To discharge an individual battery while the others remain oncharge.8. From the home screen, press the desired battery icon.9. Press thebutton to access the disharge menu for thatbattery only, for Transportation mode repeat instructions from step 4. For Test Discharge follow the Battery Testing instructions on page 11.Auto-Dim and Auto-ShutoffThe user can choose to engage either the Auto-Dim or Auto-Shutoff function of the charger LCD in the Settings menu. The user may alsoopt to have both options turned on.To select, go to the Settings screen and select on or off for each option.Auto-Dim: This feature turns off the back lit LCD screen after one minute of non-use if the AC mains power is removed, a battery is present and XLR camera output is not in use. The back light will turn back on if the LCD is touched or AC mains power is restored.To select, go to the Settings screen and select on or off for Auto-Dim.Auto-Shutoff: This feature will turn off the charger circuitry entirely after five minutes of non-use if the AC mains power is removed, a battery is present and XLR camera output is not in use. Circuitry will turn back on when AC mains power is restored.To select, go to the Settings screen and select on or off for Auto-Shutoff.Operation1415Powering DC Auxiliary Equipment1. Attach one end of the XLR4accessory cable (available separately) to the charger.2. Attach the other end to the“DC in” four pin XLR on the camera/camcorder. A battery can be attached when AC mains power is not present to provide DC power output after five seconds.1.2.3.Press the DC XLR Output icon, located on the lower right hand of the Performance Charger LCD.OperationPhysical DataPerformance QUADHeight8.70 inches (22.10 cm)Length16.50 inches (41.91 cm)Width9.90 inches (25.15 cm)Weight8.0 lbs (3.6 kg) Performance DUALHeight8.70 (22.10 cm)Length11.30 (28.70 cm)Width8.50 (21.59 cm)Weight7.0 lbs (3.2 kg)Environmental DataOperating temperature range-0°C to +40°C (-32°F to +104°F)Electrical DataSupply VoltageAC Input: 100-240 VAC, 50/60 Hz. Wide Range InputPower Output70 Watt, 16 VDC Power Supply OutputTechnical SpecificationsIn some cases a battery may be discharged to a very lowvoltage level causing the battery to be unrecognizable to thecharger when first attached.16After Sales Support17General NoticesFCC NoticeThis equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at their own expense.This equipment has been approved by one or more agencies. All changes and/or modifications not expressly approved by Anton/ Bauer could void the users’ warranty and authority to operate this equipment. There are no serviceable parts in this equipment.18This warranty for the product specified in this document (“Product”) is given by Vitec Videocom, Inc. (“Anton/Bauer”), 14 Progress Drive, Shelton, Connecticut 06484. If you (the purchaser of the Product from Anton/Bauer, or the person for whom the Product was purchased, if it was a gift) have any questions regarding Product applications, Product specification, or to obtain warranty serviceon this or any Anton/Bauer product, contact the company at the address above.THIS PRODUCT MUST BE REGISTERED WITH ANTON/BAUER WITHIN 30 DAYS OF PURCHASE TO ASSURE WARRANTY COVERAGE. REGISTER ONLINE AT:Warranty registration, including the serial numbers of Anton/Bauer chargers used with this battery, must be supplied to Anton/Bauer. Anton/Bauer will warranty the Product only against defects in material and workmanship for the period as follows from the date of purchase, in accordance with the terms set forth below, and then, only if the Product is used exclusively in conjunction with compatible Anton/Bauer chargers. If this charger is returned to Anton/Bauer for warranty service it will be required that you provide model names and serial numbers of compatible Anton/Bauer chargers with which this product was used.MAXX II Warranty 24 months: Anton/Bauer will repair or replace the Product at Anton/Bauer’s option and cost.This warranty shall be effective only if Anton/Bauer receives notice of such defects in materials or workmanship during the period of the warranty. The liability of Anton/Bauer hereunder is expressly limited to a claim for repair or replacement of the Product or as otherwise stated herein at Anton/Bauer’s sole discretion. Notice of any claim under this warranty shall be delivered to Anton/Bauer during the period of the warranty and the Product shall be returned with its packaging promptly, at your expense, to an Anton/Bauer Customer Support Center or to the address above. Upon receipt of the Product and a record of your compliance with the conditions of this warranty, Anton/Bauer will repair or replace the Product and return it to you, or issue a credit, as applicable. You are responsible for all shipping and handling charges to and from authorized facility.THIS WARRANTY DOES NOT APPLY TO AND IS VOID INTHE CASE OF DEFECTS OR DAMAGE RESULTING FROM ACCIDENTS, DISASTER, NEGLECT, MISUSE, IMPROPER INSTALLATION, IMPROPER OR UNAUTHORIZED SERVICE OR MAINTENANCE, UNAUTHORIZED REPLACEMENT PARTS OR ATTACHMENTS; OR DYSFUNCTION OR MALFUNCTION OF, OR CAUSED BY, ANY OTHER PRODUCT OR DEVICE.Misuse includes any use of the Product in other than its intended application, including the use of this Product with any charging device or accessory not manufactured by and/or specified by Anton/ Bauer. This warranty does not cover, and Anton/Bauer assumes no responsibility for, any equipment or devices used in conjunction with the Product.ANTON/BAUER DISCLAIMS ANY LIABILITY FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR BREACH OF ANY WRITTEN OR IMPLIED WARRANTY OF THE PRODUCT. UNDER NO CIRCUMSTANCES WILL ANTON/BAUER BE RESPONSIBLE FOR ANY SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES.This Warranty is to be construed and enforced in accordance with the law of the State of Connecticut, including the provisions ofthe Uniform Commercial Code as adopted and from time to time amended in the State of Connecticut, and not the Convention for the International Sale of Goods. This choice of Connecticut law is exclusive of any Connecticut law that would require reliance on any law foreign to Connecticut.Warranty19WarrantyShould any action of law or in equity be brought by any person under this Warranty, such action shall be brought only in the United States District Court for the District of Connecticut, or in any Superior Court in Fairfield County, Connecticut, USA. Some states do not allow limitations on how long a warranty lasts, so the time period limitation herein may not apply to you. Some states do not allow the exclusion or limitation of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This warranty gives you specific legal rights and you may have other legal rights which may vary from state to state. Use of unauthorized equipment in conjunction with Anton/Bauer products constitutes misuse under our warranties and may limit or void those warranties. Anton/Bauer does not authorize, condone, recommend, or otherwise assume any liability or responsibility resulting from the use of any battery, charger, or accessory made by Anton/Bauer with any battery, charger or accessory not manufactured, produced or sold by Anton/ Bauer. Anton/Bauer only authorizes the use of original Anton/Bauer products with this Product. Use only original Anton/Bauer equipment with this Product.2021Mobile Power. Perfected. Publication Part No. 7595-0448 Rev. B。

ENGLIS.Li-ion Cylindrical BatterySpecificationLi -i o n 14500 3.7V 800m A h50.5-1.01 .ScopeThis specification describes the basic performance, technical requirement, testing method, warning and caution of the Li- ion Cylindrical rechargeable battery .The specification only applies to RS PRO Ltd.2. Products assembly drawing and size refers to picture 13.SpecificationNO.ItemSpecifications3.1Typical Capacity 820mAh @ 0.2C Discharge Minimum capacity 800mAh @ 0.2C Discharge 3.2Nominal voltage3.7V3.3Standard ChargeCC/CV,0.2C5A, 4.20V3.4Standard Discharge CC,0.2C5A, 3.00V3.5End-of-charge Voltage4.20V±0.05V3.6End-of-charge Current 0.02C5A （At CV mode）3.7End-of-discharge Voltage 3.00 V3.8Charging Time 8.0hours（standard charge）3.9Quick Charge Current 800mA （1.0C 5rate）3.10Quick Discharge Current 1600mA （2.0C 5rate）3.11Max Discharge Current 2400mA （3.0C 5rate）3.12Initial Impedance Max:70m3.13 Weight Approx(约)：20.2±2g3.14Operating temperature Charging ： 0℃~45℃Discharging ：-20℃~60℃3.15Storage temperature -5℃~35℃3.16Storage Humidity ≤75% RH3.17Appearance Without scratch, distortion, contaminationand leakage3.18Standard environmental conditionTemperature ： 25±2℃Humidity : 45-75%RHAtmospheric Pressure ： 86-106 KPA3.19Temperature Dependence of Discharge Capacity @ 0.2C DischargeChargetemperatureDischarge temperature25℃-10℃0℃15℃25℃40℃Relative Capacity50%80%90%100%100% 4 General PerformanceNo.Item Test Methods and Condition Criteria4.10.2CCapacityAfter standard charging, rest battery for 10min,then discharging at 0.2C to voltage 3.0V,recording the discharging time.≥300min4.2Cycle Life Constant current 0.5C charge to 4.2V, thenconstant voltage charge to current declines to0.01C, rest 10min，constant current 0.5Cdischarge to 3.0V，rest 10min. Repeat abovesteps till continuously discharging capacity≥300 times(次)Higher than 80% of the Initial Capacities of the Cells4.3Capability ofkeepingelectricity20±5℃, After standard charging, rest thebattery 28days, discharging at 0.2C to voltage3.0V, recording the discharging time.≥240min5 Environment PerformanceNo.Item Test Methods and Condition Criteria5.1Discharge athightemperatureAfter standard charging, rest the cells 4h at60±2℃, then discharging at 1C to voltage 3.0V,recording the discharging time.≥54min5.2Discharge atlowtemperatureAfter standard charging, rest the cells for 16h at-20±2℃, then discharging at 0.2C to voltage 3.0V,recording the discharging time.≥210min5.3ThermalshockPut the cells in the oven. The temperature of theoven is to be raised at 5±2℃ per minute to atemperature of 130±2℃ and remains 30 minutes.No fire, nosmoke6 Safe CharacteristicNo.Item Test Methods and Condition Criteria6.1Over chargetestingAt 23±5℃, charging cells with constantcurrent 2C to voltage 5.0V, Stop test till cellstemperature 10℃ lower than max temperature.No smoke or fire6.2OverdischargetestingAt 23±5℃, According to the requirements ofstandard charge, the cells will be discharge tocut-off voltage, then connect with external loadof 30 ohm for 24 hours.No fire, nosmoke, noleakage.6.3Short-circuittestingAt 23±5℃, After standard charging,connect cells anode and cathode by wire whichimpedance less than 80±20mΩ, keep 6h.No smoke or fireAbove testing of safe characteristic must be with protective equipment.※7. CAUTIONS IN USETo ensure proper use of the battery please read the manual carefully before using it. Handling(1)Do not expose to, dispose of the battery in fire.(2)Do not put the battery in a charger or equipment with wrong terminals connected.(3)Avoid shorting the battery(4)Avoid excessive physical shock or vibration.(5)Do not disassemble or deform the battery.(6)Do not immerse in water.(7)Do not use the battery mixed with other different make, type, or model batteries.(8)Keep out of the reach of children.(9)Do not place in a pocket.charge and dischargeBattery must be charged in appropriate charger only.Never use a modified or damaged charger.Do not leave battery in charger over 24 hours.Store the battery in a cool, dry and well-ventilated area.Regulations vary for different countries. Dispose of in accordance with local regulations.8. Battery operation instruction8.1 ChargingCharging current：Cannot surpass the biggest charging current which in this specification book stipulated。

Features and Benefits• Illumination lamp lights up a wide area around V-grooves•Rugged and compact hand held design for demanding environmental conditions• Fast splice (13 sec) at low loss and fast heating (25 sec) for single fiber 1• Simple operation with fixed V-groove • Splicer is compatible with Seikoh Giken 2 and Diamond 3 SOCs • Internal battery charging•70 cycles for S123C/M4 V2 models with a single battery, and 160 cycles for S123M8/M12 v2 models with two batteries 4•Available for all METRO/LAN/FTTx fibers including ultra bend-insensitive fibers (e.g. EZ-Bend ® Fiber)OverviewWith its low profile and new super rugged body, the FITEL ® S123 Version 2 Series Fusion Splicer offers speedy operation for FTTx, LAN, backbone or long-haul installations. The lightweight, durable metal body frame and rubber protection corners provide robust protection, enabling use in challenging locations without compromising splicer performance. The S123 v2 Splicer is water resistant to IPX2 and dust resistant to IP5X.Product DescriptionA large battery capacity makes it possible to perform up to 70 cycles of splicing and heating for the S123C/M4 v2 models with a single battery, and 160 cycles for the S123M8/M12 v2 models with a dual battery configuration.Combining portability, power flexibility and field ruggedness, the S123 v2 Splicer delivers fast and consistent splicing with outstanding mobility and extreme ease-of-use. It also offers a splice-on-connector (SOC) solution.•Easy maintenance – Toolless electrode replacement/mirror free alignment system• Easy software upgrade via the Internet•Easily exchanged fiber holder systems (tight holder/fiber holder/SOC holder)•PC interface software to allow user management of splicing programs and results• Auto-start shrink sleeve oven feature • Improved GUI to further enhance ease-of-use• Large memory for storing data (2,000 splice data) and image (100 images)•RoHS compliantAuthorized Distributor of FITEL Products in the Americas1 By using semi-auto mode for splicing and pre-heating mode for heating2 Seikoh Giken is a registered trademark of SEIKOH GIKEN CO., LTD3 Diamond is a registered trademark of Diamond SA4By using semi-auto mode for splicing and regular mode for heatingRoHSIP525 Axis Shock2 | Under Tough EnvironmentsThe S123 v2 Fusion Splicer passed manufacturer testing based on criteria below 5 :• Drop resistant – 76 cm drops from 5 different angles• Water resistant – IPX2 rating drip proof6• Dust resistant – IP5X rating dust proof7S123C v2S123M4 v2S123M8 v2S123M12 v2Product Line-UpModel ApplicationS123C-A v2Splicing for single fiber (with soft case)S123C-B v2Splicing for single fiber (with hard case)S123M4-A v2Splicing for single to 4 ribbon fiber (with soft case)S123M4-B v2Splicing for single to 4 ribbon fiber (with hard case)S123M8 v2Splicing for single to 8 ribbon fiberS123M12 v2Splicing single to 12 ribbon fiber5 Above tests were performed at the manufacturer’s Furukawa Electric Co. Labs, and do not guarantee that the machine will be undamaged under these conditions.6 IPX2 rating drip proof means that the machine can be exposed to 3 mm/min drip from 4 different angles with 15° tilt for 2.5 min each and still functions.7 IP5X rating dust proof means that the machine can be exposed to dust particles with a diameter of 0.1 to 25 μm for 8 hours and still functions.Dust ResistantWater ResistantDrop ResistantApplicable Fibers SMF(ITU-T G.652), MMF(ITU-T G.651), DSF(ITU-T G.653), NZDSF(ITU-T G.655), BIF/UBIF (Bend insensitive fiber, ITU-T G.657)Cladding Diameter125 μmCoating Diameter250 to 900 μm for single fiber; 280 to 400 μm for ribbon (thickness) (S123M4, S124M8, S123M12) Fiber Cleave Length 5 to 10 mm (S123C); 10 mm (S123M4, S124M8, S123M12)Average Splice Loss SM: 0.05 dB, MM: 0.03 dB, DSF: 0.08 dB, NZDSF: 0.08 dBSplice Time Single fiber: 13 seconds; Ribbon fiber: 15 secondsHeat Time6Single fiber: 25 seconds (S922: 40 mm sleeve, S921: 60 mm sleeve) (Preheat mode) 7 (S123C, S124M4) Ribbon fiber: 35 seconds (S924: 40 mm sleeve) (Preheat mode) 8Splice Programs Max. 150 Heat Programs Max. 18 Automatic Heating Start Available Applicable Sleeves20/40/60 mmFiber Holding Tight holder (Loose tube applicable) or Fiber Holder System (S213C) Fiber holder system (S123M4, S124M8, S123M12)Tension Test 1.96 NReturn Loss of Splice60 dB or moreFiber Image Magnification58X (S123C), 48X (S123M4), 28X (S123M8), 20X (S123M12)Splice Memory Max. 1500 splices (S123C, S123M4); Max. 1000 splices (S123M8, S123M12)Image Capture Capacity Last 100 images to be automatically captured + Up to 24 images to be stored permanentlyDimension S123, S123M4: 127W × 199D × 81H mm (not including shock absorber) 159W × 231D × 104H mm (including shock absorber)S123M8, S123M12: 127W × 199D × 105H mm (not including shock absorber) 159W × 231D × 130H mm (including shock absorber)Weight S123C, S123M4: 1.4 kg (without battery), 1.6 kg (with S943B battery)S123M8, S123M12: 1.6 kg (without battery), 2.0 kg (with two S943B batteries)Monitor 3.5” color LCD monitorData Output USB ver.2.0 miniDisplaying Language20 languages (e.g. English, Spanish, Japanese, Chinese)Battery Capacity Typical 70 splice/heat cycles with S943B battery (S123C, S124M4) 9Typical 160 splice/heat cycles with two S943B batteries (S123M8, S124M12) 10Wind Protection Max. wind velocity of 15 m/sOperating Temperature-10 to + 50 °C (without excessive humidity)Storage Temperature-40 to +60 °C (without excessive humidity)Power Source AC Input 100 to 240 V (50/60 Hz), DC Input 11 to 17 V without any change of hardware8The first heating after turning on the power can be longer that usual heating time9 The number of the splicing and heating cycles the machine can produce using a fully charged battery at room temperature of 20° C, semi-auto mode for splicing and regular mode for heating. Depending on the condition of the batteries and operation environment, the number can vary.10T he number of the splicing and heating cycles the machine can produce using a two fully charged battery at room temperature of 20° C, semi-auto mode for splicing and regular mode for heating. Depending on the condition of the batteries and operation environment, the number can vary.S123 v2 Fusion Splicers | 3Compatible with Spice-on-Connectors (SOC)FITEL Splicer SOC PartnersCONNECTORS4 | Standard PackageItem P/N QuantityS123C-A S123C-B S123M4-A S123M4-B S123M8S123M12 1.) S123C v2 Main body S123-C-A-0001-V211————1.) S123M4 v2 Main body S123-M4-A-0003-V2——11——1.) S123M8 v2 Main body S123-M8-A-0003-V2————1—1.) S123M12 v2 Main body S123-M12-A-0003-V2—————12.) Soft Carrying Case SCC-011—1———3.) Hard Carrying Case HCC-01————113.) Hard Carrying Case HCC-02—1—1——4.) Battery Pack S943B1111 1 or 2 1 or 25.) Spare Electrodes S9691111116.) AC Adaptor for S123 v2S976A1111117.) AC Cable Cord—1111118.) Electrode Sharpener D51111111119.) Cleaning Brush VGC-0111111110.) Fiber Reformer (4)S122-X-A-0007—— 1 pair 1 pair——10.) Fiber Reformer (8/12)S122-X-A-0008———— 1 pair 1 pair User Manual—111111◆♦⌧⍓❝❝Cleaning Brush⍓Spare ElectrodesElectrode Sharpener❞❞Fiber ReformerItemP/N Quantity 1.) Soft Carrying Case SCC-0112.) Battery ChargerS958C 13.) AC Adaptor for S958C S977A 14.) Cooling Tray CTX-0115.) Angled Stand AGS-0116.) Working Belt WBT-0117.) USB CableUSB-0118.) Car Cigarette Cable CDC-0119.) Tripod AdaptorTPA-01110.) Tight Holder16 mm Cleave length 10 mm Cleave length S712T-016 S712T-010 1 pair 1 pair 11.) Fiber Holder160 μm coated fiber 250 μm coated fiber 500 μm coated fiber 900 μm coated fiberLoose Tube Fiber (left side) Loose Tube Fiber (right side)S712S-160S712S-250S712S-500S712S-900 S712S-LT-L S712S-LT-L1 pair 1 pair 1 pair 1 pair 1 pair 1 pair12.) SOC Holders <For Ferrule>Seiko Giken FC/SC connector (9 mm)Seiko Giken FC/SC connector (5 mm)Seiko Giken LC connector (9 mm)Seiko Giken LC connector (5 mm)Diamond E-2000/F-3000 connector <For Cordage>Seiko Giken Cordage (5 mm)Seiko Giken Cordage (9 mm)Diamond Cordage (5 mm)S712C-SGS9-L S712C-SGS5-L S712C-SGL9-L S712C-SGL5-L S712C-DM25-L S712C-SGC5-R S712C-SGC9-R S712C-DMC5-R 11111 11 1<Tool>Diamond Mount WTX-011 Smart FuseSoftware Interface for MachineSF-011S123 v2 Fusion Splicers | 5CategoryCodeDescriptionX Fiber Holder Type12316 mm Tight Holder S712T-01610 mm Tight Holder S712T-010Fiber Holder System Y . Number of Battery Packs (S943)01*2*Without battery pack 1 pack 2 packs* With 1 S958 battery charger and 1 S977 AC adapterAngled Stand in Action⍓Working Belt in ActionWorking Belt asShoulder Pack◆♦⌧⍓❝❞S123 v2 Fusion Splicers | 6。

ESD ADV1.0-2009Revision of ESD ADV1.0-2004for Electrostatic DischargeTerminologyGlossaryElectrostatic Discharge Association7900 Turin Road, Bldg. 3Rome, NY 13440ESD ADV1.0-2009for Electrostatic DischargeTerminologyGlossary Updated July 28, 2010ESD AssociationESD ADV1.0-2009iElectrostatic Discharge Association (ESDA) standards and publications are designed to serve the public interest by eliminating misunderstandings between manufacturers and purchasers, facilitating the interchangeability and improvement of products and assisting the purchaser in selecting and obtaining the proper product for his particular needs. The existence of such standards and publications shall not in any respect preclude any member or non-member of the Association from manufacturing or selling products not conforming to such standards and publications. Nor shall the fact that a standard or publication is published by the Association preclude its voluntary use by non-members of the Association whether the document is to be used either domestically or internationally. Recommended standards and publications are adopted by the ESDA in accordance with the ANSI Patent policy.Interpretation of ESDA Standards: The interpretation of standards in-so-far as it may relate to a specific product or manufacturer is a proper matter for the individual company concerned and cannot be undertaken by any person acting for the ESDA. The ESDA Standards Chairman may make comments limited to an explanation or clarification of the technical language or provisions in a standard, but not related to its application to specific products and manufacterers. No other person is authorized to comment on behalf of the ESDA on any ESDA Standard.THE CONTENTS OF ESDA’S STANDARDS AND PUBLICATIONS ARE PROVIDED “AS-IS,” AND ESDA MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, OF ANY KIND WITH RESPECT TO SUCH CONTENTS. ESDA DISCLAIMS ALL REPRESENTATIONS AND WARRANTIES, INCLUDING WITHOUT LIMITATION, WARRANTIES OF MERCHANTABILITY, FITNESS FOR PARTICULAR PURPOSE OR USE, TITLE AND NON-INFRINGEMENT.ESDA STANDARDS AND PUBLICATIONS ARE CONSIDERED TECHNICALLY SOUND AT THE TIME THEY ARE APPROVED FOR PUBLICATION. THEY ARE NOT A SUBSTITUTE FOR A PRODUCT SELLER’S OR USER’S OWN JUDGEMENT WITH RESPECT TO ANY PARTICULAR PRODUCT DISCUSSED, AND ESDA DOES NOT UNDERTAKE TO GUARANTY THE PERFORMANCE OF ANY INDIVIDUAL MANUFACTURERS’ PRODUCTS BY VIRTUE OF SUCH STANDARDS OR PUBLICATIONS. THUS, ESDA EXPRESSLY DISLAIMS ANY RESPONSIBILITY FOR DAMAGES ARISING FROM THE USE, APPLICATION, OR RELIANCE BY OTHERS ON THE INFORMATION CONTAINED IN THESE STANDARDS OR PUBLICATIONS.NEITHER ESDA, NOR ITS MEMBERS, OFFICERS, EMPLOYEES OR OTHER REPRESENTATIVES WILL BE LIABLE FOR DAMAGES ARISING OUT OF OR IN CONNECTION WITH THE USE OR MISUSE OF ESDA STANDARDS OR PUBLICATIONS, EVEN IF ADVISED OF THE POSSIBILITY THEROF. THIS IS A COMPREHENSIVE LIMITATION OF LIABILITY THAT APPLIES TO ALL DAMAGES OF ANY KIND, INCLUDING WITHOUT LIMITATION, LOSS OF DATA, INCOME OR PROFIT, LOSS OF OR DAMAGE TO PROPERTY AND CLAIMS OF THIRD PARTIES.Published by:Electrostatic Discharge Association 7900 Turin Road, Bldg. 3 Rome, NY 13440Copyright © 2009 by ESD Association All rights reservedNo part of this publication may be reproduced in any form, in an electronic retrieval system or otherwise, without the prior written permission of the publisher.Printed in the United States of AmericaDISCLAIMER OF WARRANTIESDISCLAIMER OF GUARANTYLIMITATION ON ESDA’s LIABILITYCAUTION NOTICEESD Association Advisory ESD ADV1.0-2009 ESD Association Advisory for Electrostatic Discharge Terminology – Glossary1.0 PURPOSEThe purpose of this Glossary is to promote technically correct terminology in the electrical overstress/electrostatic discharge (EOS/ESD) community.2.0 SCOPEThis document contains unified definitions and explanations of terminology used in the standards, TR20.20 Handbook, and other documents of the ESD Association. The Glossary compares EOS/ESD industry terminology with the more familiar usages of electrical and electronic terms. Although the Glossary is not intended to be an encyclopedia, it includes historical information (including explanations of obsolete terminology) and clarifies terminology in other EOS/ESD-related documents.The Glossary is revised as needed so that it evolves continually along with the evolving knowledge of EOS/ESD phenomena and protective methods.New revisions of the Glossary cover all issued standards, standard practices, standard test methods in effect at the time the revision, but not necessarily draft documents. At the time of each edition’s publication, the Glossary includes the most recent updates of the definitions from all issued ESD Association standards.3.0 DEFINITIONSAC equipment grounda) The ground point at which the equipment grounding conductor is bonded to any piece ofequipment, at the equipment end of the conductor in a single-phase 120VAC electricalservice.b) The 3rd wire (green/green with yellow stripe) terminal of a receptacle.NOTE: Wiring colors may vary by National Electrical Code.c) The entire low impedance path (electrically equivalent to the equipment grounding conductor)from a piece of electrical equipment to the neutral bus at the main service equipment). acceptance equipmentAn instrument or collection of instruments that meet the criteria of a standard or standard test method and provides a measurement that is repeatable. It may or may not be as accurate as laboratory evaluation equipment. This equipment is typically used to verify materials, devices or procedures under in-use conditions.acceptance testingIncoming tests to confirm proper marking and electrical functionality. Data are the form of visual inspection records, and values or pass/fail notation.active componentsSemiconductor devices and elements such as transistors and diodes, amplifiers, and rectifiers that can change their basic characteristics in a powered electrical circuit.air conductivityThe ability of air to conduct (pass) an electric current under the influence of an electric field.air ionsMolecular clusters of about 10 molecules (water, impurities, etc.) bound by polarization forces to a singly charged oxygen or nitrogen molecule.1ESD ADV1.0-2009air ionizerA source of charged air molecules (ions).amplitudeThe value chosen to be specific to the waveform, typically the difference between the baseline and the first peak.ankle strapSee ground strap.antistat, agentA substance that is part of or topically applied to a material to render the material surface static dissipative or less susceptible to triboelectric charging.antistatic Usually refers to the property of a material that inhibits triboelectric charging. Note: A material's antistatic characteristic is not necessarily co-relatable with its resistively or resistance.attenuatorA resistive network with coaxial connectors to reduce the amplitude of a signal by a specified amount.automated handling equipment (AHE)Any form of self-sequencing machinery that manipulates or transports product in any form; e.g. wafers, packaged devices, paper, textiles, etc.auxiliary groundA separate supplemental grounding conductor for use other than general equipment grounding. bandwidthThe high frequency limit where the amplitude of a component of system has decreased to 0.707 (-3 dB) of the constant amplitude low frequency response.barrier stripA device or apparatus that consists of a metal strip and connectors or screws that allow termination and connection of wires or conductors from various components of an electrostatic discharge protected workstation.bipolar ionizerA device that generates both positively and negatively charged ions.body contacting mechanism (BCM)The part of the foot grounder that makes electrical contact with the body.bond or bondingThe permanent joining of metallic parts to form an electrically conductive path that will assure electrical continuity and the capacity to safely conduct any current likely to be imposed.bonding conductorThe wire, strap, flange or other electrically conductive mechanical device used to interconnect two otherwise isolated conductive or dissipative items.breakaway forceThe force required to disconnect the ground cord from the cuff.2ESD ADV1.0-2009 bus barA metal strip or bar to which several conductors may be bonded.bypass capacitorA capacitor placed between power and ground to provide a more stable power supply voltage by shunting high frequency signals (such as device switching noise) and/or to provide local power storage (to reduce supply voltage variations when device current usage changes).cable discharge currentA current produced by causing a stored charge to flow in or out of a cable conductor.cable discharge eventOccurrence of an Electrostatic Discharge Event (CDE) when the cable is connected to an electrical system or equipment. Examples of sources include Ethernet cables, T1 lines and other communications or data lines.charge decayThe decrease and/or neutralization of a net electrostatic charge.charge inductionThe displacement of charge in an isolated conductor when placed in an electric field (for example, from a charged body). Note: Momentary grounding of such a conductor would result in its gaining a net charge.charged device model (CDM) electrostatic discharge (ESD)An ESD stress model that approximates the discharge event that occurs when a charged component is quickly discharged to another object at a lower electrostatic potential through a signal pin or terminal.charged device model (CDM) electrostatic discharge (ESD) testerEquipment that simulates the component level CDM ESD event using the non-socketed test method.charged plate monitor (CPM)An instrument used to measure the charge neutralization properties of ionization equipment. coaxial resistive probeA resistor (for example, a 1.0 ohm disk resistor) used to measure the CDM discharge current. coaxial transmission lineA coaxial cable with controlled impedance used for transferring a signal with minimum loss from one point of the system to another.cold healingThe spontaneous recovery, at room temperature, of an item from a parametric change caused by electrostatic discharge.cold workstationA work area that has items, assemblies, black boxes, or systems which no power is applied. common connection pointA device or location (less than 1 ohm within itself) where the conductors of two or more ESD technical elements are connected in order to bring the ungrounded ESD technical elements to the same electrical potential through equipotential bonding.3ESD ADV1.0-2009common point groundA grounded device or location where the conductors of one or more technical elements are bonded.compliance (periodic) verificationTesting done to indicate that the performance has not changed from initial baseline values to exceed selected limits.compliance verification (periodic testing) equipmentAn instrument or collection of instruments that provide an indication or measurement. It may or may not be repeatable or accurate. This equipment is typically used for indications of pass or fail. componentAn active or passive item such as a resistor, diode, transistor, integrated circuit or hybrid circuit. component failureA condition in which a tested component does not meet one or more specified static or dynamic data sheet parameters.component under test (CUT)A passive or active element, device, integrated circuit, module or subsystem being tested. The CUT is intended to become part of a completed system but is not the entire system.compressed gas ionizerIonization devices that can be used to neutralize charged surfaces and / or remove surface particles with pressurized gas. This type of ionizer may be used to ionize the gas within production equipment.conductive flooring materialA floor material that has a resistance to ground of less than 1.0 x 106 ohms.conductive material, resistanceA material that has a surface resistance of less than 1 x 104 ohms or a volume resistance of less than 1 x 104 ohms.conductive material, resistivityA material that has a surface resistivity less than 1 x 105 ohms/square or a volume resistivity less than 1 x 104 ohm-cm.conductivitya. The ratio of the current per unit area (current density) to the electric field in a material.Conductivity is expressed in units of siemens/meter.b. In non-technical usage, the ability to conduct current.constant area and force electrode (CAFÉ)An electrode designed to be held by a person’s finger, gloved or ungloved, to reproducibly measure resistance from the finger to a counter electrode such as a ground strap worn on the wrist of the same hand. This electrode is suitable for measuring the resistance of a finger wearing a finger cot.contact-mode dischargeAn ESD event initiated within a relay. The relay is connected to the component pin via a probe, and the component is not in a socket.contact-mode, non-socketed dischargeSee constant-mode discharge.4ESD ADV1.0-2009 coronaThe production of positive and negative ions by a very localized high electric field. The field is normally established by applying a high voltage to a conductor in the shape of a sharp point or wire.correlation sampleA representative device used for correlating measured voltages with known applied voltages. critical path componentsAny portion of the AHE within a certain distance of the device path. That distance should be agreed upon between the manufacturer and end user.cuffThe portion of the wrist strap worn on the wrist. The cuff maintains electrical contact with a person’s skin.current limiting resistanceA resistance value incorporated in series with the wrist strap or foot grounder’s electrical path to ground. This resistance limits electrical current that could pass through the grounding mechanism in the event of inadvertent user contact with electrical potential.current sense resistorA resistor, R CS, of less than five ohms which produces a measurable voltage proportional to current through it with an intrinsic rise-time response three times faster than the fastest rise-time to be measured. ∆v=∆i x R CS.current sensorA device used to measure the current in a circuit or system. This device could be non-invasive (by sensing the change in magnetic flux lines) or be very low impedance inserted in series (such as the ESD target).current source methodA TLP methodology (sometimes referred to as constant current method) that utilizes a 500 ohm resistor in series with the DUT and measures the voltage and current at the DUT.data sheet parametersStatic and dynamic component performance data supplied by the component manufacturer or user.DC resistanceThe ratio of the DC voltage applied to a conductor to the CD current through it.decay rateThe decrease of charge or voltage per unit time.decay timeThe time required for an electrostatic potential to be reduced to a given percentage (usually 10%) of its initial value. (See Static Decay Test.)delay lineA transmission line used to introduce signal delay between two components of a system. destructive damageDamage where the operating electrical characteristics or parameters are altered and do not recover to the initial conditions prior to stress.5ESD ADV1.0-2009deviceProduct being processed by AHE (e.g., an integrated circuit [IC] or a printed circuit [PC] board). device pathThe route traveled by a device in an AHE.device under test (DUT)The device to which the Transient Stimulus will be applied.di/dtCurrent derivative: the slope of the tangent at a particular point in time of the current signal. dielectricAn insulating material that can sustain an electric field with little current flow.dielectric breakdown voltageThe electric potential across an insulating material that causes a sudden increase in current through the material of the insulator.dielectric strengthThe maximum electric field that a dielectric can sustain.discharge currentA current produced by causing a stored charge to flow out of a component into a conductor from an ESD simulator.discharge timeThe time necessary for a voltage (due to an electrostatic charge) to decay from an initial value to some arbitrarily chosen final value.discrete componentAn elementary electronic device constructed as a single unit such as a transistor, resistor, capacitor, inductor, diode, etc.dissipative floor materialFloor material that has a resistance to ground between 1.0 x 106 and 1.0 x 109 ohms.dissipative MaterialsA material that has a surface resistance greater than or equal to 1 x 10E4 ohms but less than 1 x 10E11 ohms or a volume resistance greater than or equal to 1 x 10E4 ohms but less than 1 x10E11 ohms.dynamic parametersDynamic parameters are those measured with the component in a functioning (operating) condition. These parameters may include, but are not limited to: full functionality, output rise and fall times under a specified load condition, and dynamic current draw.dynamic stateAny operational state where the device is functioning according to its design. Typically, inputs, I/O, and output pins are changing as a required to operate the device. In the dynamic state, the supply current should be changing throughout the range of I DDNOM.earth grounding electrodeThe metal rod, metal plate, metal pipe, metal mesh, metal underground water pipe, or grounded metal building frame that are bonded to the neutral bus at the main service entrance.6electric chargeAn absence or excess of electrons.electric field shielding materialsA material that has a surface resistance or a volume resistance of less than 1 x 103.electrical ionizerA device that creates ions in gases by use of high voltage electrodes.electrical overstress (EOS)The exposure of an item to a current or voltage beyond its maximum ratings. This exposure may or may not result in a catastrophic failure.electrification periodThe average of five (5) electrification times, plus five (5) seconds.electrification timeThe time for the resistance measuring instrument to stabilize at the value of the upper resistance range verification fixture.electrostatic chargeElectric charge at rest.electrostatic damageChange to an item caused by an electrostatic discharge that makes it fail to meet one or more specified parameters.electrostatic discharge (ESD)The rapid, spontaneous transfer of electrostatic charge induced by a high electrostatic field. Note: Usually, the charge flows through a spark between two bodies at different electrostatic potentials as they approach one another. Details of such processes, such as the rate of the charge transfer, are described in specific electrostatic discharge models.electrostatic discharge (ESD) controlSee static control.electrostatic discharge (ESD) groundThe point, electrodes, bus bar, metal strips, or other system of conductors that form a path from a statically charged person or object to ground.electrostatic discharge (ESD) protectiveA property of materials capable of one or more of the following: reducing the generation of static electricity, dissipating electrostatic charges over its surface or volume, or providing shielding from ESD or electrostatic fields.electrostatic discharge (ESD) protective symbolThe graphics used to identify items that are specifically designed to provide electrostatic discharge protection.electrostatic discharge (ESD) protective workstationAn area that is constructed and equipped with the necessary protective materials and equipment to limit damage to electrostatic discharge susceptible items handled therein.electrostatic discharge (ESD) protective worksurfaceA worksurface that dissipates electrostatic charge from materials placed on the surface or from the surface itself.7electrostatic discharge sensitivity (ESDS)The ESD level that causes component failure. (Note: See also electrostatic discharge susceptibility.)electrostatic discharge (ESD) shieldA barrier or enclosure that limits the passage of current and attenuates an electromagnetic field resulting from an electrostatic discharge.electrostatic discharge (ESD) spark testingTesting performed with operating equipment or parts to determine their susceptibility to the transient electromagnetic fields produced by an air discharge event.electrostatic discharge susceptibility (ESDS)The propensity to be damaged by electrostatic discharge. (See also electrostatic discharge sensitivity).electrostatic discharge susceptibility (ESDS) classificationThe classification of items according to electrostatic discharge susceptibility voltage ranges. Note: There are various classification methods.electrostatic discharge susceptibility (ESDS) symbolThe graphics placed on hardware, assemblies, and documentation for identification of electrostatic discharge susceptible items.electrostatic discharge susceptible (ESDS) itemElectrical or electronic piece part, device, component, assembly, or equipment item that has some level of electrostatic discharge susceptibility.electrostatic discharge (ESD) withstand voltageThe maximum electrostatic discharge (ESD) level that does not cause component failure. electrostatic fieldAn attractive or repulsive force in space due to the presence of electric charge.electrostatic potentialThe voltage difference between a point and an agreed upon reference.electrostatic shieldA barrier or enclosure that limits the penetration of an electrostatic field.electrostaticsThe study of electrostatic charge and its effects.emitterA conducting sharp object, usually a needle or wire, which will cause a corona discharge when kept at a high potential.energizedThe state of a piece of equipment such that it carries electrical, fluid, thermal, mechanical or other form of energy in a state which could pose a hazard to personnel.EOSSee electrical overstress.equipment grounding conductorThe conductor used to connect the non-current carrying metal parts of equipment, raceways and other enclosures to the main service equipment ground bus.equipotentialHaving the same electrical potential; of uniform electrical potential throughout.ESDSee electrostatic discharge.ESD eventOccurrence of a single electrostatic discharge from any source. Examples of source include humans, ESD simulators and other charged objects.ESD grounding / bonding reference pointThe ESD grounding system selected for use in a facility or situation that best suits the application: a) AC equipment ground; b) auxiliary ground; c) equipotential bondingESD protected area (EPA)A defined location with the necessary materials, tools and equipment capable of controlling static electricity to a level that minimizes damage to ESD susceptible items.ESD targetA current transducer used to measure ESD discharges.ESD target adapterAn adapter used to connect reference generators to the ESD target.ESD technical elementsAll of the items, materials, devices, tools and equipment used within an EPA for the control of static electricity.ESDSSee Electrostatic Discharge Susceptibleevaluation testingStringent testing of a wrist strap to determine its electrical and mechanical performance abilities. Data are in the form of values from laboratory testing.failure threshold currentThe supply current value that when exceeded, is considered to have failed the device. To avoid false failures due to changes of state it should be greater than the nominal supply current (I DDNOM).faraday cageA conductive enclosure that attenuates a stationary electrostatic field.field induced chargingA charging method using electrostatic induction.field plate (FP)A conductive plate used to elevate the potential of the device under test (DUT) by capacitive coupling.9final test voltageThe voltage on the test plate of the periodic verification instrument at which the discharge time test ends.floor contacting surface (FCS)That part of the foot grounder that makes electrical contact to the grounding surface.flooring / foot grounder system resistanceThe total resistance of the foot grounders when worn by the person standing on a static floor or stainless steel plate.foot grounderPersonnel grounding device worn on the shoe. The device makes electrical contact with the surface on which the wearer is standing. The device also makes contact with the wearer through either direct skin contact or by contacting moisture inside the shoe. This definition includes heel / toe grounders and booties or similar devices (excluding static control shoes).foot grounder systemA foot grounder properly worn by a person where the electrical path includes the person and the foot grounder.functional stateThe functional state of the device defines the mode in which it is operating.functional testingEnd-use testing to confirm electrical functionality. Data is in the form of pass/fail notation or values.FWHMFull Width at Half Maximumgarment systemAny electrically interconnected components of static control apparel.grounda. A conducting connection, whether intentional or accidental between an electrical circuit orequipment and the earth, or to some conducting body that serves in place of earth.b. The position or portion of an electrical current at zero potential with respect to the earth.c. A conducting body, such as the earth of the hull of a steel ship used as a return path forelectric currents and as an arbitrary zero reference point.ground cordThe portion of the wrist strap that provides flexibility of movement while completing the electrical circuit between the cuff and ground.ground currentThe current flowing out of the ground pin.ground fault circuit interrupterA device intended for the protection of personnel that functions to de-energize a circuit or portion thereof within an established period of time. It is activated when a current difference between the neutral and hot conductors exceeds some predetermined value that is less than that required to operate the overcurrent protective device of the supply circuit. The current difference is usually caused by a current to ground.ground leadThe portion of the wrist strap, which provides flexibility of movement while completing the electrical circuit between the cuff at one end and a ground system at the other.ground pinThe pin or set of pins that return current to the supply voltage source.ground plane (GP)A conductive plate used to complete the circuitry for grounding / discharging the DUT.ground reference pointThe prong of the equipment’s ground wire from hand soldering equipment to a workstation ground point. Examples are: (a) The ground U-prong (or round prong) of an AC power cord; (b) the banana plug of a grounding patch cord; (c) the ring or spade lug of a ground jumper wire. ground strapa. A conductor intended to provide an electrical path to ground.b. An item used by personnel with a specified resistance, intended to provide a path to ground. groundable pointA designated connection location or assembly used on an electrostatic discharge protective material or device that is intended to accommodate electrical connection from the device to an appropriate electrical ground.groundable point, floor materialA point on the floor material that accommodate an electrical connection from the floor material to an appropriate ground.groundable point, seatingConductive caster or drag chain used to provide an electrical path from seating to a static control floor or mat.groundable static control garmentA garment that exhibits an electrical resistance less than 1 x 109 ohms from point-to-point and from any point or panel on the garment to the groundable point on the garment.groundable static control garment systemGarments that are used to establish the primary ground path for a person shall provide a resistance of less than 35 megohms from the person to the groundable point of the garment. The garment must also meet all the requirements included in the definition for groundable static control garments.groundedConnected to earth or some other conducting body that serves in place of the earth.grounded conductorA system or circuit conductor that is intentionally grounded.grounding conductorA conductor used to connect equipment or the ground circuit of a wiring system to a ground electrode or electrodes.grounding electrode conductorA conductor used to connect the ground electrode(s) to the equipment grounding conductor, to the grounded conductor, or to both at the main service, at each building or structure where supplied from a common service, or at the source of a separately derived system.11。