KPTR-3216CGCK中文资料

•One of a Family of 9 Devices with User Memories from 1-Kbit to 256-Kbit• 32-Kbit (4-Kbyte) EEPROM User Memory⎯Sixteen 256-byte (2-Kbit) Zones⎯Self-timed Write Cycle⎯Single Byte or 128-byte Page Write Mode⎯Programmable Access Rights for Each Zone•2-Kbit Configuration Zone⎯37-byte OTP Area for User-defined Codes⎯160-byte Area for User-defined Keys and Passwords•High Security Features⎯64-bit Mutual Authentication Protocol (Under License of ELVA)⎯Encrypted Checksum⎯Stream Encryption⎯Four Key Sets for Authentication and Encryption⎯Eight Sets of Two 24-bit Passwords⎯Anti-tearing Function⎯Voltage and Frequency Monitor•Smart Card Features⎯ISO 7816 Class A (5V) or Class B (3V) Operation⎯ISO 7816-3 Asynchronous T = 0 Protocol (Gemplus® Patent) *⎯Supports Protocol and Parameters Selection for Faster Operation⎯Multiple Zones, Key Sets and Passwords for Multi-application Use⎯Synchronous 2-wire Serial Interface for Faster Device Initialization *⎯Programmable 8-byte Answer-to-reset Register⎯ISO 7816-2 Compliant Modules•Embedded Application Features⎯Low Voltage Operation: 2.7V to 5.5V⎯Secure Nonvolatile Storage for Sensitive System or User Information⎯2-wire Serial Interface⎯1.0 MHz Compatibility for Fast Operation⎯Standard 8-lead Plastic Packages Green Compliant (exceeds RoHS)⎯Same Pinout as 2-wire Serial EEPROMs•High Reliability⎯Endurance: 100,000 Cycles⎯Data Retention: 10 years⎯ESD Protection: 4,000V min* Note: Modules available with either T=0 / 2-wire modes or 2-wire mode only.5014KS–SMEM–08/09Table 1. Pin AssignmentsPadDescriptionISO Module TWI Module “SOIC PDIP”V CC Supply Voltage C1 C1 8 GND Ground C5 C5 4 SCL/CLK Serial Clock Input C3 C3 6 SDA/IO Serial Data Input/Output C7C7 5 RST Reset InputC2NCNCFigure 1.Pin ConfigurationV CC =C1RST=C2SCL/CLK=C3NC=C4ISO Smart Card ModuleC5=GND C6=NC C7=SDA/IOC8=NCNC NC NC GND123487658-lead SOIC, PDIP V CC NC SCL SDAV CC =C1NC=C2SCL/CLK=C3NC=C4TWI Smart Card Module C5=GND C6=NC C7=SDA/IO C8=NC1. DescriptionThe AT88SC3216C member of the CryptoMemory ® family is a high-performance secure memory providing 32 Kbits of user memory with advanced security and cryptographic features built in. The user memory is divided into 16 256-byte zones, each of which may be individually set with different security access rights or effectively combined together to provide space for 1 to 16 data files.1.1. Smart Card ApplicationsThe AT88SC3216C provides high security, low cost, and ease of implementation without the need for a microprocessor operating system. The embedded cryptographic engine provides for dynamic and symmetric mutual authentication between the device and host, as well as performing stream encryption for all data and passwords exchanged between the device and host. Up to four unique key sets may be used for these operations. The AT88SC3216C offers the ability to communicate with virtually any smart card reader using the asynchronous T = 0 protocol (Gemplus Patent) defined in ISO 7816-3. Communication speeds up to 153,600 baud are supported by utilizing ISO 7816-3 Protocol and Parameter Selection.AT88SC3216C35014KS–SMEM–08/091.2. Embedded ApplicationsThrough dynamic and symmetric mutual authentication, data encryption, and the use of encrypted checksums, theAT88SC3216C provides a secure place for storage of sensitive information within a system. With its tamper detection circuits, this information remains safe even under attack. A 2-wire serial interface running at 1.0 MHz is used for fast and efficient communications with up to 15 devices that may be individually addressed. The AT88SC3216C is available in industry standard 8-lead packages with the same familiar pinout as 2-wire serial EEPROMs. Figure 2.Block DiagramV CC GNDSCL/CLK SDA/IORST5014KS–SMEM–08/092. Pin Descriptions2.1.Supply Voltage (V CC )The V CC input is a 2.7V to 5.5V positive voltage supplied by the host.2.2. Clock (SCL/CLK)In the asynchronous T = 0 protocol, the SCL/CLK input is used to provide the device with a carrier frequency f . Thenominal length of one bit emitted on I/O is defined as an “elementary time unit” (ETU) and is equal to 372/f . When the synchronous protocol is used, the SCL/CLK input is used to positive edge clock data into the device and negative edge clock data out of the device.2.3. Reset (RST)The AT88SC3216C provides an ISO 7816-3 compliant asynchronous answer to reset sequence. When the reset sequence is activated, the device will output the data programmed into the 64-bit answer-to-reset register. An internal pull-up on the RST input pad allows the device to be used in synchronous mode without bonding RST. The AT88SC3216C does not support the synchronous answer-to-reset sequence.2.4. Serial Data (SDA/IO)The SDA pin is bidirectional for serial data transfer. This pin is open-drain driven and may be wired with any number ofother open drain or open collector devices. An external pull-up resistor should be connected between SDA and V CC . The value of this resistor and the system capacitance loading the SDA bus will determine the rise time of SDA. This rise time will determine the maximum frequency during read operations. Low value pull-up resistors will allow higher frequency operations while drawing higher average power. SDA/IO information applies to both asynchronous and synchronous protocols.When the synchronous protocol is used, the SCL/CLK input is used to positive edge clock data into the device and negative edge clock data out of the device.AT88SC3216C55014KS–SMEM–08/093. *Absolute Maximum RatingsOperating Temperature.............................−40°C to +85°C Storage Temperature ............................−65°C to + 150°C Voltage on Any Pinwith Respect to Ground .......................− 0.7 to V CC +0.7V Maximum Operating Voltage.......................................6.0V DC Output Current..................................................5.0 mA*NOTICE: Stresses beyond those listed under “AbsoluteMaximum Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other condition beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods of time may affect device reliability.Table 2. DC CharacteristicsApplicable over recommended operating range from V CC = +2.7 to 5.5V, T AC = -40°C to +85°C (unless otherwise noted ) SymbolParameterTest ConditionMin Typ Max Units V CC (2) Supply Voltage2.7 5.5 V I CC Supply Current (V CC = 5.5V) Async READ at3.57MHz 5 mA I CC Supply Current (V CC = 5.5V) Async WRITE at 3.57MHz 5 mA I CC Supply Current (V CC = 5.5V) Synch READ at 1MHz 5 mA I CC Supply Current (V CC = 5.5V) Synch WRITE at 1MHz 5 mA I SB Standby Current (V CC = 5.5V) V IN = V CC or GND 1 mA V IL (1) SDA/IO Input Low Threshold 0 V CC x 0.2 V V IL (1) SCL/CLK Input Low Threshold 0 V CC x 0.2 V V IL (1) RST Input Low Threshold 0 V CC x 0.2VV IH (1)(2) SDA/IO Input High ThresholdV CC x 0.7 V CC V V IH (1)(2) SCL/CLK Input High Threshold V CC x 0.7 V CC V V IH (1)(2) RST Input High ThresholdV CC x 0.7V CC V I IL SDA/IO Input Low Current 0 < V IL < V CC x 0.15 15 μA I IL SCL/CLK Input Low Current 0 < V IL < V CC x 0.15 15 μA I IL RST Input Low Current 0 < V IL < V CC x 0.1550μAI IH SDA/IO Input High Current V CC x 0.7 < V IH < V CC 20 μA I IH SCL/CLK Input High Current V CC x 0.7 < V IH < V CC 100 μA I IH RST Input High Current V CC x 0.7 < V IH < V CC 150 μA V OH SDA/IO Output High Voltage 20K ohm external pull-up V CC x 0.7V CC V V OL SDA/IO Output Low Voltage I OL = 1mAV CC x 0.15VI OHSDA/IO Output High CurrentV OH 20 μANotes : 1. V IL min and V IH max are reference only and are not tested. 2. To prevent Latch Up Conditions from occurring during Power Up of the AT88SCxxxxC, V CC must be turnedon before applying V IH . For Powering Down, V IH must be removed before turning V CC off.5014KS–SMEM–08/09Table 3.AC CharacteristicsApplicable over recommended operating range from V CC = +2.7 to 5.5V, T AC = -40°C to +85°C, CL = 30pF (unless otherwise noted ) Symbol ParameterMin Max Units f CLK Async Clock Frequency (V CC Range: +4.5 - 5.5V) 1 5 MHZ f CLK Async Clock Frequency (V CC Range: +2.7 - 3.3V) 1 4 MHZ f CLK Synch Clock Frequency 0 1 MHZ Clock Duty cycle 40 60 % t R Rise Time - I/O, RST 1 μS t F Fall Time - I/O, RST 1 μS t R Rise Time - CLK 9% x period μS t F Fall Time - CLK9% x periodμS t AA Clock Low to Data Out Valid 35 nS t HD.STA Start Hold Time 200 nS t SU.STA Start Set-up Time 200 nS t HD.DAT Data In Hold Time 10 nS t SU.DAT Data In Set-up Time 100 nS t SU.STO Stop Set-up Time 200 nS t DHData Out Hold Time20nSt WRWrite Cycle Time (at 25° C)5 mSt WR Write Cycle Time (-40° to +85°C)7 mS4. Device Operation for Synchronous ProtocolsCLOCK and DATA TRANSITIONS : The SDA pin is normally pulled high with an external device. Data on the SDA pinmay change only during SCL low time periods (see Figure 5 on page 8). Data changes during SCL high periods will indicate a start or stop condition as defined below. START CONDITION : A high-to-low transition of SDA with SCL high is a start condition which must precede any other command (see Figure 6 on page 8).STOP CONDITION : A low-to-high transition of SDA with SCL high is a stop condition. After a read sequence, the stop command will place the EEPROM in a standby power mode (see Figure 6 on page 8). ACKNOWLEDGE :All addresses and data words are serially transmitted to and from the EEPROM in 8-bit words. The EEPROM sends a zero to acknowledge that it has received each word. This happens during the ninth clock cycle.MEMORY RESET :After an interruption in protocol, power loss or system reset, any 2-wire part can be reset by following these steps: 1. Clock up to 9 cycles.AT88SC3216C75014KS–SMEM–08/092. Look for SDA high in each cycle while SCL is high.3. Create a start condition.Figure 3.Bus Timing for 2 wire communications: SCL: Serial Clock, SDA – Serial Data I/OSCLSDA INSDA OUTFigure 4.Write Cycle Timing: SCL: Serial Clock, SDA – Serial Data I/OSTOP CONDITIONST ART CONDITIONSCLSDANote :The write cycle time t WR is the time from a valid stop condition of a write sequence to the end of the internal clear/write cycle.5014KS–SMEM–08/09Figure 5.Data ValidityDATA CHANGE ALLOWEDDATA STABLEDATA STABLESDASCLFigure 6.Start and Stop DefinitionsSDASCLSTART STOPFigure 7.Output AcknowledgeSCLDAT A INDA T A OUTEG D E L W O N K C A T R A T S 981AT88SC3216C95014KS–SMEM–08/095. Device Architecture5.1. User ZonesThe EEPROM user memory is divided into 16 zones of 2,048 bits each. Multiple zones allow for different types of dataor files to be stored in different zones. Access to the user zones is allowed only after security requirements have been met. These security requirements are defined by the user during the personalization of the device in the configuration memory. If the same security requirements are selected for multiple zones, then these zones may effectively be accessed as one larger zone. Figure 8.User ZonesZone$0$1$2$3$4$5$6$7$00─ 256 Bytes ─ User 0$F8$00─ ─ User 1 ─ ─ ─ User 14$F8$00─ 256 Bytes ─ User 15$F86. Control LogicAccess to the user zones occurs only through the control logic built into the device. This logic is configurable throughaccess registers, key registers and keys programmed into the configuration memory during device personalization. Also implemented in the control logic is a cryptographic engine for performing the various higher-level security functions of the device.5014KS–SMEM–08/097. Configuration MemoryThe configuration memory consists of 2048 bits of EEPROM memory used for storing passwords, keys and codes anddefining security levels to be used for each user zone. Access rights to the configuration memory are defined in the control logic and may not be altered by the user. Figure 9.Configuration Memory $0$1$2$3$4$5$6$7$00 Answer to Reset$08 Fab CodeMTZCard Manufacturer CodeIdentification $10 Lot History CodeRead Only$18 DCR Identification Number Nc $20 AR0 PR0 AR1 PR1 AR2 PR2 AR3 PR3 $28 AR4 PR4 AR5 PR5 AR6 PR6 AR7 PR7$30 AR8 PR8 AR9 PR9 AR10 PR10 AR11 PR11 $38 AR12 PR12 AR13 PR13 AR14 PR14 AR15 PR15$40 $48 Issuer CodeAccess Control $50 $58 $60 $68 $70 $78 $80 $88 For Authentication and Encryption useCryptography$90 $98 $A0 $A8 For Authentication and Encryption useSecret$B0 PAC Write 0 PAC Read 0 $B8 PAC Write 1 PAC Read 1 $C0 PAC Write 2 PAC Read 2 $C8 PAC Write 3 PAC Read 3 $D0 PAC Write 4 PAC Read 4 $D8 PAC Write 5 PAC Read 5 $E0 PAC Write 6 PAC Read 6 $E8 PACWrite 7PACRead 7Password$F0 $F8ReservedForbidden分销商库存信息:ATMELAT88SC3216C-PU AT88SC3216C-SU AT88SC3216C-MJTG AT88SC3216C-MJ。

黄绿热缩管黄绿热缩管介绍黄绿热缩管由辐射交联聚烯烃材料双色共挤制成，颜色鲜明，理化电气性能优异，主要功能是电线电缆或线束中地线的标识，特殊线缆和母线或管道的标识等。

黄绿热缩管特点热缩倍率：2:1、3:1高阻燃、环保收缩温度：70℃～125℃使用温度：-55℃～125℃(DBRS-125G(2X)YG)-55℃～135℃(DBRS-135G(3X)YG)环保标准：RoHS标准颜色：黄绿相间技术指标性能指标测试方法/条件拉伸强度≥10.4MPa ASTM D 2671断裂伸长率≥300% ASTM D 2671 热老化后拉伸强度≥7.3MPa 158℃×168h热老化后断裂伸长率≥100% 158℃×168h 轴向变化率-8%～+8% ASTM D 2671阻燃性VW-1 ASTM D 2671 C法耐电压（额定电压600V）2500V，1min不击穿UL 224热冲击无裂纹，无滴落UL 224，250℃×4h击穿强度≥15kV/mm ASTM D 149体积电阻率≥1014Ω.cm IEC 60093结构示意图2：1黄绿热缩管规格表规格供货内径D(mm)全缩后尺寸(mm) 标准包装(米/盘) 内径d 壁厚wφ1.0/0.70 1.5±0.3 ≤0.70 0.28±0.10 200 φ1.5/0.90 2.0±0.3 ≤0.90 0.30±0.10 200 φ2.0/1.00 2.5±0.3 ≤1.00 0.35±0.10 200 φ2.5/1.30 3.0±0.3 ≤1.30 0.36±0.10 200 φ3.0/1.50 3.5±0.4 ≤1.50 0.38±0.10 200 φ3.5/1.80 4.0±0.4 ≤1.80 0.40±0.10 200 φ4.0/2.00 4.5±0.4 ≤2.00 0.45±0.10 200 φ4.5/2.30 5.0±0.4 ≤2.30 0.45±0.10 100 φ5.0/2.50 5.5±0.4 ≤2.50 0.45±0.10 100 φ6.0/3.00 6.5±0.4 ≤3.00 0.50±0.10 100 φ7.0/3.50 7.5±0.4 ≤3.50 0.50±0.10 100 φ8.0/4.00 8.5±0.5 ≤4.00 0.55±0.10 100 φ9.0/4.50 9.5±0.5 ≤4.50 0.55±0.10 100 φ10/5.00 10.5±0.5 ≤5.00 0.55±0.10 100 φ11/5.50 11.5±0.5 ≤5.50 0.60±0.10 100 φ12/6.00 12.5±0.5 ≤6.00 0.60±0.10 100 φ13/6.50 13.5±0.5 ≤6.50 0.60±0.10 100 φ14/7.00 14.5±0.5 ≤7.00 0.65±0.10 100 φ15/7.50 15.5±0.6 ≤7.50 0.70±0.10 100 φ16/8.00 16.5±0.6 ≤8.00 0.70±0.10 100 φ17/8.50 17.5±0.6 ≤8.50 0.70±0.10 100 φ18/9.00 19.0±0.7 ≤9.00 0.70±0.15 100 φ20/10.0 22.0±0.7 ≤10.0 0.75±0.15 100 φ22/11.0 24.0±0.7 ≤11.0 0.80±0.15 100 φ25/12.5 26.0±0.7 ≤12.5 0.90±0.15 50 φ28/14.0 29.0±0.7 ≤14.0 0.90±0.15 50 φ30/15.0 31.5±0.7 ≤15.0 0.95±0.15 50 φ35/17.5 36.5±0.7 ≤17.5 0.95±0.15 50 φ40/20.0 41.5±0.7 ≤20.0 1.00±0.20 50 Φ45/22.5 46.0±0.7 ≤22.5 1.00±0.20 25 φ50/25.0 51.0±0.7 ≤25.0 1.00±0.20 25 φ60/30.0 ≥60.0 ≤30.0 1.10±0.20 25 φ70/35.0 ≥70.0 ≤35.0 1.20±0.20 25 φ80/40.0 ≥80.0 ≤40.0 1.30±0.20 25 φ90/45.0 ≥90.0 ≤45.0 1.50±0.20 25 φ100/50.0 ≥100.0 ≤50.0 1.65±0.20 25 φ120/60.0 ≥120.0 ≤60.0 1.70±0.20 15 φ150/75.0 ≥150.0 ≤75.0 1.70±0.20 15 φ180/90.0 ≥180.0 ≤90.0 1.75±0.20 153：1黄绿热缩管规格表规格供货内径D(mm)全缩后尺寸(mm) 标准包装(米/盘)内径d 壁厚wφ1.5 ≥1.6 ≤0.50 ≥0.50 200 φ2.4 ≥2.4 ≤0.80 ≥0.50 200 φ3.0 ≥3.2 ≤1.00 ≥0.55 200 φ4.5 ≥4.8 ≤1.50 ≥0.60 100 φ6.0 ≥6.4 ≤2.00 ≥0.65 100 φ9.0 ≥9.5 ≤3.00 ≥0.75 100 φ12.0 ≥12.7 ≤4.00 ≥0.75 50 φ18.0 ≥19.1 ≤6.00 ≥0.85 50 φ24.0 ≥25.4 ≤8.00 ≥1.00 50 φ39.0 ≥39.0 ≤13.0 ≥1.15 50。

Dept / Issued by 6857 Thomas Andersson Issue 1 Established2005-10UM Page1(4)The English language version is the original and the reference in case of dispute. Den engelska språkversionen är originalversion och skall åberopas i händelse av tvist.TEST METHOD PROVNINGSMETODDetermination of tempera-ture of retraction after freezing Bestämning av temperatur för elastisk återgång efter nedfrysningRubber Gummi Orientation OrienteringThis VCS standard is identical to the previously issued STD 1024,3216, issue 3, which it replaces for Volvo Cars. Denna VCS-standard är identisk med tidigare utgiven STD 1024,3216, utgåva 3, och ersätter denna för Volvo Personvagnar.This standard agrees with ISO 2921 and in technical content with ASTM D 1329-72. Denna standard överensstämmer med ISO 2921 och i sak med ASTM D 1329-72.Contents Innehåll1 Application 1 Tillämpning2 Testpiece 2 Provkropp3 Apparatus 3 Provutrustning4 Testingprocedure 4 Provning5 Results 5 Resultat1 Application 1 TillämpningThe standard refers to a method for determining the temperature at which a certain given return to an original length takes place for stretched and frozen rubber. Standarden avser en metod för bestämning av den temperatur vid vilken en viss given återgång till ur-sprunglig längd äger rum för sträckt och fruset gummi.2 Test piece 2 ProvkroppTest piece in accordance with figure 1 with dimension L either 100 or 50 mm. Provkropp enligt figur 1 med måttet L antingen 100 eller 50 mm.As an alternative another test piece or a finished rubber part (e.g. an O-ring with a cross sectional diameter between 1,5 and 4 mm) may be used. Alternativt får annan provkropp eller färdig gummi-artikel (t ex O-ring med tvärsnittsdiameter mellan 1,5 och 4 mm) användas.L = 50 ± 0,2 mm Small test piece for rubber with alarge amount of stretchL = 100 ± 0,2 mm Large test piece for rubber withlittle stretch L = 50 ± 0,2 mm Liten provkropp för gummi medstor töjningL = 100 ± 0,2 mm Stor provkropp för gummi medliten töjningFig 1 Test piece / Provkropp3 Apparatus 3 Provutrustning Vessel for coolant. Behållare för kylvätska.The vessel shall be insulated and equipped with a stirrer, thermometer graduated in degrees C and a device for heating the coolant liquid. Behållaren skall vara isolerad och försedd med om-rörare, temperaturmätare med gradering i °C samt anordning för uppvärmning av kylvätskan.Coolant liquid and chopped dry ice. Kylvätska och krossad kolsyrais.Suitable coolant liquid is methanol or ethanol. Liquids which do not noticeably affect the rubber material to be tested may be used. Lämplig kylvätska är t ex metanol eller etanol. Vätska som inte nämnvärt påverkar det gummimaterial som skall provas får användas.Stand with loading devices, clamps for one or more test pieces and locking devices for the upper, movable test piece clamps (fig 2). Stativ med belastningsanordningar, hållare för en eller flera provkroppar och låsanordningar för de övre,rörliga provkroppshållarna (fig 2)Furthermore the stand shall be fitted with removable scales graduated in such a way that the retraction to the original length can be directly read as a percen-tage of the extension during freezing. The upper, movable test piece clamps shall be equipped with counterweights so that the test pieces can be loaded to 0,01 - 0,02 MPa. Stativet skall dessutom vara försett med utbytbara skalor graderade på sådant sätt att återgång till ur-sprunglig längd direkt kan avläsas i % av förläng-ningen vid nedfrysning. De övre, rörliga provkropps-hållarna skall vara försedda med motvikter, så att provkropparna belastas med 0,01-0,02 MPa.The moving parts of the apparatus shall be so de-signed that they cause the smallest possible amount of friction. Apparaturens rörliga delar skall vara utformade så att minsta möjliga friktion uppstår.Fig 2 Apparatus for determining the tempeature for elastic retraction after freezing Apparat för bestämning av temperatur för elastisk återgång efter nedfrysning 4 Test procedure 4 ProvningThe temperature of retraction shall be determined on a minimum of three test pieces taken from the same sample. The vessel shall contain so much coolant that the level of the liquid is at least 25 mm above the test piece during the test. During stirring, the coolant is cooled to a temperature below -70 °C by means of dry ice until an even temperature has been reached. Temperaturen för elastisk återgång skall bestämmas på minst tre provkroppar från samma prov. Behållaren skall innehålla så mycket kylvätska att vätskan vid provning står minst 25 mm över provkroppen. Under omrörning kyls vätskan till under -70 °C med kolsyrais tills en jämn temperatur har uppnåtts.The test piece is then arranged in the stand and elon-gated 250%. If the test piece breaks before an elon-gation of 250%, a new test piece shall be fitted and the elongation reduced by steps of 50% until break-age no longer occurs. This is the elongation required for the test. Provkroppen sätts upp i stativ och töjs 250%. Om provkroppen brister före 250% insätts ny provkropp och töjningen minskas i steg om 50% tills brott inte längre inträffar. Detta är den för provning avsedda töjningen.O-rings shall be elongated 50% unless otherwiseindicated.O-ring töjs 50% såvida icke annat anges.When the elongation has been established, the low temperature test shall be carried out without any delay in accordance with below: När töjningsgraden fastställts skall köldprovning ske utan tidsfördröjning enligt följande:The upper test piece clamp shall be locked with the locking device so that the upper part of the upper test piece clamp is placed just opposite the zero mark on the elongation scale. Den övre provkroppshållaren låses med låsanord-ningen, så att övre delen av den övre provhållaren står mitt för delstrecket 0 på töjningsskalan.Immediately upon this, the stand with test pieces shall be lowered into the bath. After 10 min in the liquid which is to have a temperature between -70 °C and -73 °C, the locking devices of the upper test piece clamps shall be released so that the extended test piece can retract to original length. At the same time, the temperature of the liquid shall be increased by 1 °C per minute. Omedelbart därefter sänks stativet med provkrop-parna med i vätskan. Efter 10 min i vätskan med temperaturer mellan -70 °C och -73 °C, lossas de övre provkroppshållarnas låsanordningar så att den töjda provkroppen kan återgå till ursprunglig längd. Sam-tidigt höjs temperaturen i vätskan med 1°C per min.If the stretched test pieces return to their original lengths at -70 °C, another coolant medium which allows lower temperatures may be used. Skulle de töjda provkropparna återgå till ursprunglig längd vid -70 °C får annat kylmedium, som medger lägre temperatur, användas.The retraction is read off first at -70 °C and is then re-peated after every other minute. The values read off for the return to original lengths and the temperature at that time are marked on a graph. This illustrates the return to original length as a function of temperature. Återgången avläses första gången vid -70 °C och sker därefter varannan min. Avlästa värden på återgång till ursprunglig längd och den rådande temperaturen inprickas i ett diagram som åskådliggör återgångens beroende av temperaturen.5 Results 5 ResultatFrom the graph the temperature which corresponds to 10%, 30%, 50% and 70% retraction is read off. The retraction is designated TR 10, TR 30, TR 50 and TR 70 respectively. Ur diagrammet avläses den temperatur som svarar mot 10%, 30%, 50% och 70% återgång. Återgången betecknas TR 10, TR 30, TR 50 respektive TR 70.The median value of three readings at temperatures for TR 10, TR 30, TR 50 and TR 70 is given. Mittvärdet av tre bestämningar av temperaturerna för TR 10, TR 30, TR 50 och TR 70 anges.The elongation (in %) established at the initial stage of he test procedure shall be stated in the test report.t Den vid provningsstarten fastställda (i %) anges i protokollet.。

4-1415899-9SCHRACK Power PCB Relay RZ, Power Relays, Standard, Monostable, DC, 300 –400mW Coil Power Rating Class, 400mW Coil Power Rating DC01/10/2021 11:09PM | Page 1 For support call+1 800 522 6752Relays, Contactors & Switches>Relays>Power Relays>PCB Power Relay: 12-16 Amp, MonostableCoil Resistance:360 ΩCoil Power Rating DC:400 mWCoil Power Rating Class:300 – 400 mWCoil Magnetic System:Monostable, DCPower Relay Type:StandardAll PCB Power Relay: 12-16 Amp, Monostable (86)FeaturesProduct Type FeaturesPower Relay Type StandardElectrical CharacteristicsInsulation Initial Dielectric Between Coil & Contact Class4000 – 5000 VInsulation Initial Dielectric Between Open Contacts1000 VrmsContact Limiting Making Current30 AInsulation Creepage Class8 mmContact Limiting Continuous Current16 AInsulation Initial Dielectric Between Contacts & Coil5000 VrmsInsulation Creepage Between Contact & Coil10 mm[.394 in]Contact Limiting Breaking Current16 ACoil Magnetic System Monostable, DCCoil Power Rating Class300 – 400 mWCoil Power Rating DC400 mWCoil Resistance360 ΩCoil Special Features UL Coil Insulation Class FCoil Voltage Rating12 VDCContact Switching Voltage (Max)400 VACContact Voltage Rating250 VAC4-1415899-9 ACTIVESCHRACKTE Internal #:4-1415899-9SCHRACK Power PCB Relay RZ, Power Relays, Standard,Monostable, DC, 300 – 400mW Coil Power Rating Class, 400mWCoil Power Rating DCView on >SCHRACK Power PCB Relay RZ|Contact Voltage Rating250 VACBody FeaturesInsulation Special Features Tracking Index of Relay Base PTI250Product Weight10 g[.353 oz]Contact FeaturesContact Arrangement 1 Form A (NO)Contact Current Class10 – 20 A, 16 AContact Current Rating (Max)16 AContact Material AgSnO2Contact Number of Poles1Terminal Type PCB-THTMechanical AttachmentRelay Mounting Type Printed Circuit BoardDimensionsLength Class (Mechanical)25 – 30 mmInsulation Clearance Class8 mmHeight Class (Mechanical)15 – 16 mmInsulation Clearance Between Contact & Coil10 mm[.394 in]Width Class (Mechanical)12 – 16 mmProduct Width12.7 mm[.5 in]Product Length29 mm[1.142 in]Product Height15.7 mm[.618 in]Usage ConditionsEnvironmental Ambient Temperature (Max)85 °C[185 °F]Environmental Category of Protection RTIIPackaging FeaturesPackaging Method Carton, TubeProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU CompliantEU ELV Directive 2000/53/EC CompliantChina RoHS 2 Directive MIIT Order No 32, 2016No Restricted Materials Above Threshold01/10/2021 11:09PM | Page 2 For support call+1 800 522 675201/10/2021 11:09PM | Page 3For support call+1 800 522 6752China RoHS 2 Directive MIIT Order No 32, 2016No Restricted Materials Above Threshold EU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020 (209)Candidate List Declared Against: JUL 2019 (201)SVHC > Threshold:Not Yet ReviewedHalogen ContentNot Low Halogen - contains Br or Cl > 900 ppm.Solder Process CapabilityWave solder capable to 265°CProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledge based on the information they provided. This information is subject to change. The part numbers that TE has identified as EU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment products will be CE marked as required by Directive 2011/65/EU. Components may not be CE marked. Additionally, the part numbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulation, the information TE provides on SVHC in articles for this part number is based on the latest European Chemicals Agency (ECHA) ‘Guidance onrequirements for substances in articles’ posted at this URL: https://echa.europa.eu/guidance-documents/guidance-on-reachPower Relays(99)TE Part #4-2158000-2RZ03-1A3-D012-RCompatible PartsAlso in the Series SCHRACK Power PCB Relay RZCustomers Also Bought01/10/2021 11:09PM | Page 4For support call+1 800 522 6752TE Part #1-1649328-0RT314005TE Part #3-644470-202P MTA156 CONN ASSY 20AWG LFTE Part #180908-1FF 250 TAB HSG 2P NYLON REDTE Part #87003-2MOD I RECP STMPDTE Part #2176315-7MELF SMA_A 330R 0.1% 15PPM 0204 0.4WTE Part #2337243-1TACT MINI JB 5.2X5.2X1.5 70GFTE Part #4-2176328-3CRGP 1206 33K 1%TE Part #2340321-1ASSY STRADDLE MOUNT 168P 062 SLIVER 2.0TE Part #2-1879378-7Metal Chip Resistor: Current SenseTE Part #2-1415899-8PCB Power Relay: 12-16 Amp, MonostableDocumentsCAD Files3D PDF3DCustomer View ModelENG_CVM_CVM_4-1415899-9_A.2d_dxf.zipEnglishCustomer View ModelENG_CVM_CVM_4-1415899-9_A.3d_igs.zipEnglishCustomer View ModelENG_CVM_CVM_4-1415899-9_A.3d_stp.zipEnglishBy downloading the CAD file I accept and agree to the of use.Terms and Conditions Datasheets & Catalog PagesLighting Relays GuideEnglishPower PCB Relay RZ DatasheetEnglishIndustrial Relays Quick Reference GuideEnglishIndustrial Relays Quick Reference GuideEnglishIndustrial Relays Quick Reference GuideJapaneseIndustrial Relays Quick Reference GuideSchrack Power PCB Relay RZ Series flyer (Chinese)Product SpecificationsDefinitions RelaysEnglishAgency ApprovalsVDE CertificateEnglish01/10/2021 11:09PM | Page 5 For support call+1 800 522 6752。

For Mid Voltage SMDFEATURES•The unique design structure for mid voltage enables a compact size with high voltage resistance.•Rated voltage Edc: 100, 250 and 630V.•C3225, C4532 and C5750 types are specific to reflow soldering. APPLICATIONSSnapper circuits for switching power supply, ringer circuits for tele-phone and modem, or other general high voltage circuits.Dimensions in mm PRODUCT IDENTIFICATION(1) Series name(2) Dimensions(3) Capacitance temperature characteristicsClass 1 (Temperature compensation)Class 2 (Temperature stable and general purpose)(4) Rated voltage Edc(5) Nominal capacitanceThe capacitance is expressed in three digit codes and in units of pico farads (pF).The first and second digits identify the first and second significant figures of the capacitance.The third digit identifies the multiplier.R designates a decimal point.(6) Capacitance tolerance(7) Packaging styleType L W TC1608 1.6±0.10.8±0.10.8±0.1 C2012 2.0±0.2 1.25±0.20.6±0.10.85±0.151.25±0.2 C3216 3.2±0.2 1.6±0.20.6±0.10.85±0.151.15±0.151.3±0.21.6±0.2 C3225 3.2±0.42.5±0.3 1.25±0.21.6±0.22.0±0.2 C4532 4.5±0.43.2±0.4 1.6±0.22.0±0.22.3±0.22.5±0.33.2±0.4 C5750 5.7±0.4 5.0±0.4 1.6±0.22.3±0.21608 1.6×0.8mm2012 2.0×1.25mm3216 3.2×1.6mm3225 3.2×2.5mm4532 4.5×3.2mm5750 5.7×5.0mmcharacteristicsCapacitance change Temperature range C0G0±30ppm/°C–55 to +125°CTemperaturecharacteristicsCapacitance change Temperature range X7R±15%–55 to +125°C2A100V2E250V2J630V1021000pF33333000pF474470000pFJ±5%K±10%M±20%T Taping (reel)B BulkC2012JB2E102K(1)(2)(3)(4)(5)(6)(7)For Mid Voltage SMDC1608 (EIA:CC0603) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.100±10%0.8±0.1C1608C0G2E101K 120±5%0.8±0.1C1608C0G2E121J 150±10%0.8±0.1C1608C0G2E151K 180220±5%0.8±0.1C1608C0G2E221J ±10%0.8±0.1C1608C0G2E221K270±10%0.8±0.1C1608C0G2E271K 330±5%0.8±0.1C1608C0G2E331J 390±10%0.8±0.1C1608C0G2E391K 470560±5%0.8±0.1C1608C0G2E561J ±10%0.8±0.1C1608C0G2E561K680±10%0.8±0.1C1608C0G2E681KCapacitance (pF)ToleranceThickness(mm)Part No.100±5%0.8±0.1C1608C0G2A101J120±10%0.8±0.1C1608C0G2A121K150180±5%0.8±0.1C1608C0G2A181J ±10%0.8±0.1C1608C0G2A181K220±10%0.8±0.1C1608C0G2A221K 270±5%0.8±0.1C1608C0G2A271J330±10%0.8±0.1C1608C0G2A331K390470±5%0.8±0.1C1608C0G2A471J ±10%0.8±0.1C1608C0G2A471K560±10%0.8±0.1C1608C0G2A561K 680±5%0.8±0.1C1608C0G2A681J1000±10%0.8±0.1C1608C0G2A102K1200Capacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.8±0.1C1608X7R2A102K±20%0.8±0.1C1608X7R2A102M1500±10%0.8±0.1C1608X7R2A152K±20%0.8±0.1C1608X7R2A152M2200±10%0.8±0.1C1608X7R2A222K±20%0.8±0.1C1608X7R2A222M3300±10%0.8±0.1C1608X7R2A332K±20%0.8±0.1C1608X7R2A332M4700±10%0.8±0.1C1608X7R2A472K±20%0.8±0.1C1608X7R2A472M6800±10%0.8±0.1C1608X7R2A682K±20%0.8±0.1C1608X7R2A682M10000±10%0.8±0.1C1608X7R2A103K±20%0.8±0.1C1608X7R2A103M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC2012 (EIA:CC0805) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:250VRATED VOLTAGE Edc: 100VCapacitance (pF)ToleranceThickness(mm)Part No.820±5%0.6±0.1C2012C0G2E821J ±10%0.6±0.1C2012C0G2E821K1000±10%0.8±0.1C2012C0G2E102K 1200±5%0.8±0.1C2012C0G2E122J1500±5%0.8±0.1C2012C0G2E152J ±10%0.8±0.1C2012C0G2E152K18002200±5% 1.25±0.2C2012C0G2E222J ±10% 1.25±0.2C2012C0G2E222K2700±10% 1.25±0.2C2012C0G2E272KCapacitance (pF)ToleranceThickness(mm)Part No.1000±5%0.6±0.1C2012C0G2A102J ±10%0.6±0.1C2012C0G2A102K1200±5%0.6±0.1C2012C0G2A122J ±10%0.6±0.1C2012C0G2A122K1500±5%0.6±0.1C2012C0G2A152J ±10%0.6±0.1C2012C0G2A152K1800±5%0.8±0.1C2012C0G2A182J ±10%0.8±0.1C2012C0G2A182K2200±5%0.8±0.1C2012C0G2A222J ±10%0.8±0.1C2012C0G2A222K2700±5% 1.25±0.2C2012C0G2A272J ±10% 1.25±0.2C2012C0G2A272K3300±5% 1.25±0.2C2012C0G2A332K ±10% 1.25±0.2C2012C0G2A332M3900±5% 1.25±0.2C2012C0G2A392K ±10% 1.25±0.2C2012C0G2A392M4700±5% 1.25±0.2C2012C0G2A472K±10% 1.25±0.2C2012C0G2A472MCapacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.85±0.15C2012X7R2E102K±20%0.85±0.15C2012X7R2E102M1500±10%0.85±0.15C2012X7R2E152K±20%0.85±0.15C2012X7R2E152M2200±10%0.85±0.15C2012X7R2E222K±20%0.85±0.15C2012X7R2E222M3300±10%0.85±0.15C2012X7R2E332K±20%0.85±0.15C2012X7R2E332M4700±10%0.85±0.15C2012X7R2E472K±20%0.85±0.15C2012X7R2E472M6800±10% 1.25±0.2C2012X7R2E682K±20% 1.25±0.2C2012X7R2E682M10000±10% 1.25±0.2C2012X7R2E103K±20% 1.25±0.2C2012X7R2E103M15000±10% 1.25±0.2C2012X7R2E153K±20% 1.25±0.2C2012X7R2E153M22000±10% 1.25±0.2C2012X7R2E223K±20% 1.25±0.2C2012X7R2E223MCapacitance(pF)ToleranceThickness(mm)Part No.1000±10%0.85±0.15C2012X7R2A102K±20%0.85±0.15C2012X7R2A102M1500±10%0.85±0.15C2012X7R2A152K±20%0.85±0.15C2012X7R2A152M2200±10%0.85±0.15C2012X7R2A222K±20%0.85±0.15C2012X7R2A222M3300±10%0.85±0.15C2012X7R2A332K±20%0.85±0.15C2012X7R2A332M4700±10%0.85±0.15C2012X7R2A472K±20%0.85±0.15C2012X7R2A472M6800±10%0.85±0.15C2012X7R2A682K±20%0.85±0.15C2012X7R2A682M10000±10%0.85±0.15C2012X7R2A103K±20%0.85±0.15C2012X7R2A103M15000±10% 1.25±0.2C2012X7R2A153K±20% 1.25±0.2C2012X7R2A153M22000±10% 1.25±0.2C2012X7R2A223K±20% 1.25±0.2C2012X7R2A223M33000±10% 1.25±0.2C2012X7R2A333K±20% 1.25±0.2C2012X7R2A333M47000±10% 1.25±0.2C2012X7R2A473K±20%1.25±0.2C2012X7R2A473M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC3216 (EIA:CC1206) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250V RATED VOLTAGE Edc: 100VCAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VCapacitance (pF)ToleranceThickness(mm)Part No.100±5%0.6±0.1C3216C0G2J101J ±10%0.6±0.1C3216C0G2J101K120±5%0.6±0.1C3216C0G2J121J ±10%0.6±0.1C3216C0G2J121K150±5%0.6±0.1C3216C0G2J151J ±10%0.6±0.1C3216C0G2J151K180±5%0.6±0.1C3216C0G2J181J ±10%0.6±0.1C3216C0G2J181K220±5%0.6±0.1C3216C0G2J221J ±10%0.6±0.1C3216C0G2J221K270±5%0.6±0.1C3216C0G2J271J ±10%0.6±0.1C3216C0G2J271K330±5%0.6±0.1C3216C0G2J331J ±10%0.6±0.1C3216C0G2J331K390±5%0.6±0.1C3216C0G2J391J ±10%0.6±0.1C3216C0G2J391K470±5%0.85±0.15C3216C0G2J471J ±10%0.85±0.15C3216C0G2J471K560±5%0.85±0.15C3216C0G2J561J ±10%0.85±0.15C3216C0G2J561K680±5%0.85±0.15C3216C0G2J681J ±10%0.85±0.15C3216C0G2J681K820±5%0.85±0.15C3216C0G2J821J ±10%0.85±0.15C3216C0G2J821K1000±5%0.85±0.15C3216C0G2J102J ±10%0.85±0.15C3216C0G2J102K1200±5%0.85±0.15C3216C0G2J122J ±10%0.85±0.15C3216C0G2J122K1500±5% 1.15±0.15C3216C0G2J152J ±10% 1.15±0.15C3216C0G2J152K1800±5% 1.15±0.15C3216C0G2J182J ±10% 1.15±0.15C3216C0G2J182K2200±5% 1.15±0.15C3216C0G2J222J ±10% 1.15±0.15C3216C0G2J222K2700±5% 1.6±0.2C3216C0G2J272J ±10% 1.6±0.2C3216C0G2J272K3300±5% 1.6±0.2C3216C0G2J332J ±10% 1.6±0.2C3216C0G2J332KCapacitance (pF)ToleranceThickness(mm)Part No.3300±5%0.85±0.15C3216C0G2E332J ±10%0.85±0.15C3216C0G2E332K3900±5% 1.15±0.15C3216C0G2E392J ±10% 1.15±0.15C3216C0G2E392K4700±5% 1.15±0.15C3216C0G2E472J ±10% 1.15±0.15C3216C0G2E472K5600±5% 1.15±0.15C3216C0G2E562J ±10% 1.15±0.15C3216C0G2E562K6800±5% 1.6±0.2C3216C0G2E682J ±10% 1.6±0.2C3216C0G2E682K8200±5% 1.6±0.2C3216C0G2E822J±10% 1.6±0.2C3216C0G2E822KCapacitance(pF)ToleranceThickness(mm)Part No.3900±5%0.6±0.1C3216C0G2A392J±10%0.6±0.1C3216C0G2A392K4700±5%0.85±0.15C3216C0G2A472J±10%0.85±0.15C3216C0G2A472K5600±5%0.85±0.15C3216C0G2A562J±10%0.85±0.15C3216C0G2A562K6800±5% 1.15±0.15C3216C0G2A682J±10% 1.15±0.15C3216C0G2A682K8200±5% 1.15±0.15C3216C0G2A822J±10% 1.15±0.15C3216C0G2A822K10000±5% 1.15±0.15C3216C0G2A103J±10% 1.15±0.15C3216C0G2A103KCapacitance(pF)ToleranceThickness(mm)Part No.1000±10% 1.15±0.15C3216X7R2J102K±20% 1.15±0.15C3216X7R2J102M1500±10% 1.15±0.15C3216X7R2J152K±20% 1.15±0.15C3216X7R2J152M2200±10% 1.15±0.15C3216X7R2J222K±20% 1.15±0.15C3216X7R2J222M3300±10% 1.15±0.15C3216X7R2J332K±20% 1.15±0.15C3216X7R2J332M4700±10% 1.15±0.15C3216X7R2J472K±20% 1.15±0.15C3216X7R2J472M6800±10% 1.15±0.15C3216X7R2J682K±20% 1.15±0.15C3216X7R2J682M10000±10% 1.15±0.15C3216X7R2J103K±20% 1.15±0.15C3216X7R2J103M15000±10% 1.3±0.2C3216X7R2J153K±20% 1.3±0.2C3216X7R2J153M22000±10% 1.3±0.2C3216X7R2J223K±20% 1.3±0.2C3216X7R2J223M33000±10% 1.6±0.2C3216X7R2J333K±20% 1.6±0.2C3216X7R2J333MCapacitance(pF)ToleranceThickness(mm)Part No.15000±10% 1.15±0.15C3216X7R2E153K1.15±0.1522000±10% 1.15±0.15C3216X7R2E223K±20% 1.15±0.15C3216X7R2E223M33000 1.6±0.2±20% 1.6±0.2C3216X7R2E333M47000±10% 1.6±0.2C3216X7R2E473K±20% 1.6±0.2C3216X7R2E473M68000 1.6±0.2±20% 1.6±0.2C3216X7R2E683M100000±10% 1.6±0.2C3216X7R2E104K1.6±0.2∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid VoltageSMDTEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc: 100VCapacitance (pF)ToleranceThickness(mm)Part No.33000±10% 1.15±0.15C3216X7R2A333K1.15±0.1547000±10% 1.15±0.15C3216X7R2A473K ±20% 1.15±0.15C3216X7R2A473M68000 1.6±0.2±20% 1.6±0.2C3216X7R2A683M100000±10% 1.6±0.2C3216X7R2A104K1.6±0.2150000 1.6±0.2±20% 1.6±0.2C3216X7R2A154M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC3225 (EIA:CC1210) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.3900±5% 1.25±0.2C3225C0G2J392J ±10% 1.25±0.2C3225C0G2J392K4700±5% 1.6±0.2C3225C0G2J472J ±10% 1.6±0.2C3225C0G2J472K5600±5% 1.6±0.2C3225C0G2J562J ±10% 1.6±0.2C3225C0G2J562K6800±5% 2.0±0.2C3225C0G2J682J ±10% 2.0±0.2C3225C0G2J682KCapacitance (pF)ToleranceThickness(mm)Part No.10000±5% 1.6±0.2C3225C0G2E103J ±10% 1.6±0.2C3225C0G2E103K15000±5% 2.0±0.2C3225C0G2E153J ±10% 2.0±0.2C3225C0G2E153KCapacitance (pF)ToleranceThickness(mm)Part No.15000±5% 1.25±0.2C3225C0G2A153J ±10% 1.25±0.2C3225C0G2A153K22000±5% 1.6±0.2C3225C0G2A223J ±10% 1.6±0.2C3225C0G2A223K33000±5% 2.0±0.2C3225C0G2A333J±10% 2.0±0.2C3225C0G2A333KCapacitance(pF)ToleranceThickness(mm)Part No.47000±10% 2.0±0.2C3225X7R2J473K±20% 2.0±0.2C3225X7R2J473M68000±10% 2.0±0.2C3225X7R2J683K±20% 2.0±0.2C3225X7R2J683MCapacitance(pF)ToleranceThickness(mm)Part No.100000±10% 2.0±0.2C3225X7R2E104K±20% 2.0±0.2C3225X7R2E104M150000±10% 2.0±0.2C3225X7R2E154K±20% 2.0±0.2C3225X7R2E154M220000±10% 2.0±0.2C3225X7R2E224K±20% 2.0±0.2C3225X7R2E224MCapacitance(pF)ToleranceThickness(mm)Part No.330000±10% 2.0±0.2C3225X7R2A334K±20% 2.0±0.2C3225X7R2A334M470000±10% 2.0±0.2C3225X7R2A474K±20% 2.0±0.2C3225X7R2A474M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,please contact us.For Mid Voltage SMDC4532 (EIA:CC1812) TYPECAPACITANCE RANGES:CLASS 1 (TEMPERATURE COMPENSATION) TEMPERATURE CHARACTERISTICS: C0G(0±30ppm/°C) RATED VOLTAGE Edc: 630VRATED VOLTAGE Edc: 250VRATED VOLTAGE Edc: 100V CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%) RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)ToleranceThickness(mm)Part No.8200±10% 1.6±0.2C4532C0G2J822K 10000±5% 1.6±0.2C4532C0G2J103J15000±10% 2.5±0.3C4532C0G2J153K22000Capacitance (pF)ToleranceThickness(mm)Part No.22000±5% 1.6±0.2C4532C0G2E223J ±10% 1.6±0.2C4532C0G2E223K33000±10% 2.0±0.2C4532C0G2E333K 47000±5% 3.2±0.3C4532C0G2E473JCapacitance (pF)ToleranceThickness(mm)Part No.47000±10% 2.0±0.2C4532C0G2A473K 68000100000±5% 3.2±0.4C4532C0G2A104J±10% 3.2±0.4C4532C0G2A104KCapacitance(pF)ToleranceThickness(mm)Part No.68000±10% 1.6±0.2C4532X7R2J683K±20% 1.6±0.2C4532X7R2J683M100000±10% 2.3±0.2C4532X7R2J104K±20% 2.3±0.2C4532X7R2J104MCapacitance(pF)ToleranceThickness(mm)Part No.150000±10% 1.6±0.2C4532X7R2E154K±20% 1.6±0.2C4532X7R2E154M220000±10% 2.3±0.2C4532X7R2E224K±20% 2.3±0.2C4532X7R2E224M330000±10% 2.3±0.2C4532X7R2E334K±20% 2.3±0.2C4532X7R2E334M470000±10% 2.3±0.2C4532X7R2E474K±20% 2.3±0.2C4532X7R2E474MCapacitance(pF)ToleranceThickness(mm)Part No.680000±10% 2.3±0.2C4532X7R2A684K±20% 2.3±0.2C4532X7R2A684M1000000[1µF]±10% 2.3±0.2C4532X7R2A105K±20% 2.3±0.2C4532X7R2A105M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data,For Mid Voltage SMDC5750 (EIA:CC2220) TYPE CAPACITANCE RANGES:CLASS 2TEMPERATURE CHARACTERISTICS: X7R(±15%)RATED VOLTAGE Edc:630VRATED VOLTAGE Edc:250VRATED VOLTAGE Edc:100VCapacitance (pF)Tolerance Thickness (mm)Part No.150000±10% 1.6±0.2C5750X7R2J154K ±20% 1.6±0.2C5750X7R2J154M 220000±10% 2.3±0.2C5750X7R2J224K ±20%2.3±0.2C5750X7R2J224MCapacitance (pF)Tolerance Thickness (mm)Part No.330000±10% 1.6±0.2C5750X7R2E334K ±20% 1.6±0.2C5750X7R2E334M 470000±10% 2.3±0.2C5750X7R2E474K ±20% 2.3±0.2C5750X7R2E474M 680000±10% 2.3±0.2C5750X7R2E684K ±20% 2.3±0.2C5750X7R2E684M 1000000[1µF]±10% 2.3±0.2C5750X7R2E105K ±20%2.3±0.2C5750X7R2E105MCapacitance (pF)Tolerance Thickness (mm)Part No.680000±10% 1.6±0.2C5750X7R2A684K ±20% 1.6±0.2C5750X7R2A684M 1000000[1µF]±10% 2.3±0.2C5750X7R2A105K ±20% 2.3±0.2C5750X7R2A105M 1500000[1.5µF]±10% 2.3±0.2C5750X7R2A155K ±20% 2.3±0.2C5750X7R2A155M 2200000[2.2µF]±10% 2.3±0.2C5750X7R2A225K ±20%2.3±0.2C5750X7R2A225M∗M tolerance is standard for Mid Voltage X7R capacitors.•For more information about products with other capacitance or other data, please contact us.。

JW3216光功率计用户手册V1.1本手册所有提及之商标与名称皆属上海嘉慧所有。

本手册解释权归属于上海嘉慧。

本手册的内容可能会改变，恕不另行通知。

本手册2010年5月第一版(V1.0)。

安全标志在使用仪表前，请清楚知道这些标志的意义，以防止由于误操作而造成人员伤害和损失。

仪表可能没有使用某些或全部标志。

在手册图例中，设备的安全标志可能没有画出。

手册中使用的安全标志：警告：禁止不当行为及操作，防止任何不当行为及操作造成的伤害。

注意：标示出重点信息，一般注意事项，名词解释或参考信息等，请用户务必了解！仪表上使用的安全标志：WEEE标志：表示本产品或部件不得视为一般垃圾丢弃，请依照您所在地区有关此类产品废弃物的处理方法处置。

安全事项1.仪表使用一次性碱性电池，禁止对非充电电池进行充电。

更换电池时，保证极性安装正确。

2.当产品长期不存放不用时，请将产品内电池取出分开存放，以免电池漏液造成仪表损坏。

若有漏液发生，请勿随意碰触。

3.为防止触电，请不要打开产品外壳，必须由有本公司授权的有资格的专业人员进行维修；切勿将此产品暴露在雨中或潮湿环境中，以免火灾或电击危险的发生！4.由于激光束能对眼睛造成极大危害，故在使用过程中。

请勿直视光源输出口！5.仪表使用了液晶显示屏(LCD)。

不得摔落仪表或对仪表施以重力。

如果液晶显示屏受到强烈的碰撞，可能会破裂并造成液体泄漏。

若有漏液发生，请勿随意碰触。

目录第一章标准配置---------------------------------------------------------------------------------------------------- 1第二章产品概述---------------------------------------------------------------------------------------------------- 1第三章技术指标---------------------------------------------------------------------------------------------------- 2第四章仪表功能说明 --------------------------------------------------------------------------------------------- 34.1正面------------------------------------------------------------------------------------------------------------ 34.2两侧------------------------------------------------------------------------------------------------------------ 64.3顶部------------------------------------------------------------------------------------------------------------ 84.4背面------------------------------------------------------------------------------------------------------------ 9第五章应用软件-------------------------------------------------------------------------------------------------- 105.1安装驱动 --------------------------------------------------------------------------------------------------- 105.2安装应用软件 --------------------------------------------------------------------------------------------- 125.3软件功能说明 --------------------------------------------------------------------------------------------- 15 第六章使用说明-------------------------------------------------------------------------------------------------- 186.1供电方式 --------------------------------------------------------------------------------------------------- 186.2打开电源 --------------------------------------------------------------------------------------------------- 206.3背光设置 --------------------------------------------------------------------------------------------------- 206.4光功率测量 ------------------------------------------------------------------------------------------------ 216.5数据通信 --------------------------------------------------------------------------------------------------- 236.6波长识别 --------------------------------------------------------------------------------------------------- 296.7频率检测 --------------------------------------------------------------------------------------------------- 296.8关闭电源 --------------------------------------------------------------------------------------------------- 30 第七章常见故障-------------------------------------------------------------------------------------------------- 30 第八章维护及保养----------------------------------------------------------------------------------------------- 31 第九章质量保证-------------------------------------------------------------------------------------------------- 31 附件一产品保修卡----------------------------------------------------------------------------------------------- 32 附件二保修须知-------------------------------------------------------------------------------------------------- 32第一章标准配置请参考以下清单，检查清单中所列部件是否齐全。

C C T NPO电容器1C0603C0G1E070CT00NN|规格参数：7pf±0.25pF25V C0G0201系列：常规型MPQ（最小包装）：15,000pcs包装规则：φ180mm纸带2C2012C0G1H270JT000N|规格参数：27pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带3C3225X7S1H106KT000N|规格参数：10uf±10%50V X7S1210系列：常规型MPQ（最小包装）：1,000pcs包装规则：φ180mm压纹带4C1005CH1H220JT000Y|规格参数：22pf±5%50V-CH0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带5C1608X7R1H391KT000N|规格参数：390pf±10%50V X7R0603大尺寸高电压NPO电容试样免费用孙R136********QQ2877735032系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带6C2012Y5V1E105ZT0J0N|规格参数：1uf+80%/-20%25V Y5V0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带7C2012Y5V1E225ZT000N|规格参数：2.2uf+80%/-20%25V Y5V0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带8C2012X7R1H222KT000N|规格参数：2200pf±10%50V X7R0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带9CKCA43JB1H471MT010N|规格参数：470pf±20%50V--B0805系列：排容型MPQ（最小包装）：1,000pcs包装规则：φ180mm/7inch压纹带10C1005C0G1H060CT000F|规格参数：6pf±0.25pF50V C0G0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带11C3216Y5V0J476ZT000N|规格参数：47uf+80%/-20%6.3V Y5V1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带12C1005C0G1H060DT000F|规格参数：6pf±0.5pF50V C0G0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带13C1608C0G1H681JT000N|规格参数：680pf±5%50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带14C3216X7R1C475KT000N|规格参数：4.7uf±10%16V X7R1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带15C1608X7R1H393KT000N|规格参数：0.039uf±10%50V X7R0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带16C2012C0G1H300JT000N|规格参数：30pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带17C2012Y5V1E475ZT000N|规格参数：4.7uf+80%/-20%25V Y5V0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带18C1005X5R1E104KT000E|规格参数：0.1uf±10%25V X5R0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带19C1005Y5V1A224ZT000F|规格参数：0.22uf+80%/-20%10V Y5V0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带s 20C2012C0G1H331JT000N|规格参数：330pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带21C1005Y5V1A474ZT000F|规格参数：0.47uf+80%/-20%10V Y5V0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带22C1005C0G1H080CT000F|规格参数：8pf±0.25pF50V C0G0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带23C2012C0G1H332JT000N|规格参数：3300pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带24CKCL44C0G1H100FT010N|规格参数：10pf±1%50V C0G0805系列：排容型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带25C1005C0G1H080DT000F|规格参数：8pf±0.5pF50V C0G0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带26C1608C0G1H6R2CT000N|规格参数：6.2pf±0.25pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带27C2012C0G1H332JT0H0N|规格参数：3300pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带28C2012X7R1H224KT000N|规格参数：0.22uf±10%50V X7R0805系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带29C1608C0G1H6R8CT000N|规格参数：6.8pf±0.25pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带30C2012Y5V1H105ZT0J0N|规格参数：1uf+80%/-20%50V Y5V0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带31C1005Y5V1E104ZT000F|规格参数：0.1uf+80%/-20%25V Y5V0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带32C3216Y5V1C106ZT0K0E|规格参数：10uf+80%/-20%16V Y5V1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带33C1005Y5V1E224ZT000F|规格参数：0.22uf+80%/-20%25V Y5V0402系列：常规型MPQ（最小包装）：10,000pcs包装规则：φ180mm纸带34C3216Y5V1C475ZT000N|规格参数：4.7uf+80%/-20%16V Y5V1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带35C2012Y5V1H474ZT000N|规格参数：0.47uf+80%/-20%50V Y5V0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带36C3216Y5V1C475ZT0J0N|规格参数：4.7uf+80%/-20%16V Y5V1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带37C1608C0G1H7R5CT000N|规格参数：7.5pf±0.25pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带38CKCA43C0G1H101KT010N|规格参数：100pf±10%50V C0G1206系列：排容型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带39C1608C0G1H820JT000N|规格参数：82pf±5%50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带40C0603C0G1E101JT00NN|规格参数：100pf±5%25V C0G0201系列：常规型MPQ（最小包装）：15,000pcs包装规则：φ180mm纸带41C1608C0G1H821JT000N|规格参数：820pf±5%50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带42C1608Y5V0J475ZT000N|规格参数：4.7uf+80%/-20%6.3V Y5V0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带43C1608C0G1E472JT000N|规格参数：4700pf±5%25V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带44C1608Y5V1E104ZT000N|规格参数：0.1uf+80%/-20%25V Y5V0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带45C0603C0G1E120JT00NN|规格参数：12pf±5%25V C0G0201系列：常规型MPQ（最小包装）：15,000pcs包装规则：φ180mm纸带46C3225Y5V1A476ZT000N|规格参数：47uf+80%/-20%10V Y5V1210系列：常规型MPQ（最小包装）：1,000pcs包装规则：φ180mm压纹带47C3216C0G1H223JT000N|规格参数：0.022uf±5%50V C0G1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带48C3216Y5V1H225ZT000N|规格参数：2.2uf+80%/-20%50V Y5V1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带49C3225Y5V1C226ZT000N|规格参数：22uf+80%/-20%16V Y5V1210系列：常规型MPQ（最小包装）：1,000pcs包装规则：φ180mm压纹带50C0603C0G1E180JT00NN|规格参数：18pf±5%25V C0G0201系列：常规型MPQ（最小包装）：15,000pcs包装规则：φ180mm纸带51C1608X7R1H561KT000N|规格参数：560pf±10%50V X7R0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带52C0603C0G1E1R2CT00NN|规格参数：1.2pf±0.25pF25V C0G0201系列：常规型MPQ（最小包装）：15,000pcs包装规则：φ180mm纸带53C1608C0G1H020CT000N|规格参数：2pf±0.25pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带54C2012C0G1H472JT0J0N|规格参数：4700pf±5%50V C0G0805系列：常规型MPQ（最小包装）：3,000pcs包装规则：φ180mm压纹带55C3216X7R1E155KT000N|规格参数：1.5uf±10%25V X7R1206系列：常规型MPQ（最小包装）：2,000pcs包装规则：φ180mm压纹带56C1608C0G1HR75BT000N|规格参数：0.75pf±0.1pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带57C1608C0G1H030CT000N|规格参数：3pf±0.25pF50V C0G0603系列：常规型MPQ（最小包装）：4,000pcs包装规则：φ180mm纸带。

Part Number Emitting Color Emitting MaterialLens-colorWavelength CIE127-2007*nm λPViewing Angle 2θ 1/2Luminous Intensity CIE127-2007* (I F =20mA) mcd *Luminous intensity value and wavelength are in accordance with CIE127-2007 standards.A Relative Humidity between 40% and 60% is recommended inESD-protected work areas to reduce static build up during assembly process (Reference JEDEC/JESD625-A and JEDEC/J-STD-033)Features● Ideal for indication light on hand held products ● Long life and robust package ● Standard Package: 2000pcs/ Reel ● MSL (Moisture Sensitivity Level): 3 ● Halogen-free ● RoHS compliantATTENTIONOBSERVE PRECAUTIONSFOR HANDLING ELECTROSTATIC DISCHARGE SENSITIVE DEVICESLED is recommended for reflow soldering and soldering profile is shown below.Forward Current Derating CurveThe device has a single mounting surface. The device must be mounted according to the specifications.Reel Dimension (Units : mm)Recommended Soldering Pattern (Units : mm; Tolerance: ± 0.1)Tape Specification (Units : mm)Remarks:If special sorting is required (e.g. binning based on forward voltage, Luminous intensity / luminous flux, or wavelength), the typical accuracy of the sorting process is as follows: 1. Wavelength: +/-1nm2. Luminous intensity / luminous flux: +/-15%3. Forward Voltage: +/-0.1VNote: Accuracy may depend on the sorting parameters.TERMS OF USE1. Data presented in this document reflect statistical figures and should be treated as technical reference only.2. Contents within this document are subject to improvement and enhancement changes without notice.3. The product(s) in this document are designed to be operated within the electrical and environmental specifications indicated on the datasheet. User accepts full risk and responsibility when operating the product(s) beyond their intended specifications.4. The product(s) described in this document are intended for electronic applications in which a person’s life is not reliant upon the LED. Please consult with a SunLED representative for special applications where the LED may have a direct impact on a person’s life.5. The contents within this document may not be altered without prior consent by SunLED.6. Additional technical notes are available at https:///TechnicalNotes.aspPACKING & LABEL SPECIFICATIONS。

WCM3216F2SF-SERIESTypical Impedance v.s. Frequency Curve110100100010000FREQUENCY(MHz)0.11101001000I M P E D A N C E (O h m )WCM3216F2SF-900Common ModeNormal Mode110100100010000FREQUENCY(MHz)0.11101001000I M P E D A N C E (O h m )WCM3216F2SF-161Common ModeNormal Mode110100100010000FREQUENCY(MHz)0.11101001000I M P E D A N C E (O h m )WCM3216F2SF-221Common ModeNormal ModeSeriesA(mm)3216F2SF 3.2±0.2A: SeriesB: DimensionC: Material Ferrite D: Number of Lines 2=2 linesE: Type S=One Circuit Type , N=Unshielded F: Lead free typeG: Impedance 900=90ΩH: Packaging T=Taping and Reel, B=Bulk I: Rated Current 04=400mA產品破損寬度7. Soldering and MountingPC board should be designed so that products are not sufficient under mechanicalstress as warping the board.Products shall be positioned in the sideway direction against the mechanical stress toprevent failure.7-2. SolderingMildly activated rosin fluxes are preferred. The minimum amount of solder can lead to damage from the stresses caused by the difference in coefficients of expansion between solder, chip and substrate. TAI-TECH terminations are suitable for all wave and re-flow soldering systems. If hand soldering cannot be avoided, the preferred technique is the utilization of hot air soldering tools.7-2.1 Lead free Solder re-flow:Recommended temperature profiles for re-flow soldering in Figure 1.7-2.2 Solder Wave:Wave soldering is perhaps the most rigorous of surface mount soldering processes due to the steep rise in temperature seen by the circuit when immersed in the molten solder wave. Due to the risk of thermal damage to products, wave soldering of large size products is discouraged. Recommended temperature profile for wave soldering is shown in Figure 2.7-2.3 Soldering Iron(Figure 3):Products attachment with a soldering iron is discouraged due to the inherent process control limitations. In the event thata soldering iron must be employed the following precautions are recommended.Note：‧Preheat circuit and products to 150℃‧Never contact the ceramic with the iron tip ‧Use a 20 watt soldering iron with tip diameter of 1.0mm ‧280℃tip temperature (max) ‧1.0mm tip diameter (max) ‧Limit soldering time to 3 sec.8-4. Tearing Off ForceThe force for tearing off cover tape is 15 to 60 gramsin the arrow direction under the following conditions.。

3216PID TEMPERATURE CONTROLLERUser GuideENG3216PID Temperature Controller Contents1.What Instrument Do I Have? (4)1.1Unpacking Your Controller (4)1.2Dimensions (5)1.3Step 1: Installation (6)1.3.1Panel Mounting the Controller (6)1.3.2To Remove the Controller from its Sleeve (6)2.Order Code (7)3.Step 2: Wiring (8)3.1Terminal Layout (8)3.2Wire Sizes (9)3.3PV Input (Measuring Input) (9)3.3.1Thermocouple Input (9)3.3.2RTD Input (9)3.3.3Linear Input (mA or V) (9)3.4AA Output Relay (Optional) (9)3.5Input/Output 1 (Relay or Logic or DC - Optional) (10)3.6Output 2 (Relay or Logic or DC - optional) (10)3.7Digital Communications (Optional) (11)3.8Current Transformer/Logic Input (Optional) (12)3.8.1Current Transformer Input (CT) (12)3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 13.8.2Logic Input (LA) (12)3.9Power Supply (12)3.10Example Wiring Diagram (13)4.Installation Safety Requirements (14)5.Switch On (16)5.1Initial Configuration (16)5.2To Re-Enter Quick Code mode (18)5.3Pre-Configured Controller or Subsequent Starts (19)5.4Operator Interface (20)5.4.1To Set The Required Temperature (21)5.4.2Alarm Indication (21)5.4.3Auto/Manual/Off Mode (22)5.4.4To Select Manual Operation and Adjust the Output Power (23)5.4.5Other Commonly Used Operator Parameters Available in Level 1 (24)6.Operator Level 2 (25)6.1To Enter Level 2 (25)6.2To Return to Level 1 (25)6.3Level 2 Parameters (26)6.4Timer (33)6.4.1Timer Beacon (34)6.4.2Logic outputs (34)6.4.3Power Cycling (34)6.5Dwell Timer (35)6.6Delayed Switch On Timer (36)3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 26.7Soft Start Timer (37)6.8To Operate the Timer (38)6.9Programmer (39)6.9.1Power Cycling (Programmer) (40)6.9.2Threshold (40)6.9.3To Operate the Programmer (41)6.9.4To Configure the Programmer (42)Issue 2 of this User Guide applies to controller software version 2.01 and greater3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 3Installation and Basic Operation1. What Instrument Do I Have?Thank you for choosing the 3216 Temperature Controller/Programmer.This User Guide takes you through step by step instructions to help you to install, wire, configure and use the controller. For features not covered in this User Guide, a detailed Engineering Manual, Part No HA027986, and other related handbooks can be downloaded from The controller may have been ordered to a hardware code only or pre-configured using an optional ‘Quick Start’ code. The label fitted to the side of the sleeve shows the ordering code that the controller was supplied to where the last two sets of five digits show the Quick Code. If the Quick Code shows XXXXX/XXXXX the controller will need to be configured when it is first switched on.1.1 Unpacking Your ControllerThe following items are included in the box:-• Controller mounted in its sleeve• Two panel retaining clips mounted on the sleeve• IP65 sealing gasket mounted on the sleeve• Component packet containing a snubber for each relay output (see section 3.5) and a 2.49Ω resistor for current inputs (see section 3)• This User Guide3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 43216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG51.2 DimensionsA general view of the controller is shown below together with overall dimensions.clipsGasket3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG61.3 Step 1: InstallationThis instrument is intended for permanent installation, for indoor use only, and enclosed in an electrical panelSelect a location which is subject to minimum vibrations and the ambient temperature is within 0 and 55o C (32 - 131o F) The instrument can be mounted on a panel up to 15mm thickTo ensure IP65 and NEMA 4 front protection, mount on a non-textured surface.Please read the safety information in section 4 before proceeding and refer to the EMC Booklet part number HA025464 for further installation information.1.3.1Panel Mounting the Controller1.Prepare a square cut-out in the mounting panel to the size shown. If a number of controllers are to be mounted in the same panel they should be spaced as shown.2. Fit the IP65 sealing gasket, if required, behind the frontbezel of the controller3. Insert the controller through the cut-out4. Spring the panel retaining clips into place. Secure thecontroller in position by holding it level and pushing both retaining clips forward.5. Peel off the protective cover from the display1.3.2To Remove the Controller from its SleeveThe controller can be unplugged from its sleeve by easing the latching ears outwards and pulling it forward out of the sleeve. When plugging it back into its sleeve, ensure that the latching ears click back into place to maintain the IP65 sealing.(Not to scale)Recommended minimum spacing of controllers3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG72. Order CodeModelPowersupplyInput/output 1 & output 2 XOutput AAComms, CT & Dig input Fascia colour Product Language Manual Language Quick start code3216 CCOptionalOutput AAR Relay (Form C) XNot fittedPower SupplyVL 20 – 29V VH 110 –240VModelCC ControllerCP Programmer 1 X 8 segmentProduct Language Manual Language ENG English FRA French GER German ITA Italian SPA SpanishQuick Start Code See Switch On section Input/output 1 & Output 2 OP1 OP2L X Logic I/O L L Logic I/O + logic OP L R Logic I/O + relay R R Relay + relay D D DC OP+ DC OP L D Logic I/O + DC OP D R DC OP + Relay X X Not fittedCommunications, CT & Digital Input X X X Not fitted4 X L RS485 2-wire & Dig in 2 X L RS232 2-wire & Dig in 4 C L RS485, CT & Dig in 2 C L RS232, CT & Dig in X X L Digital input only X C L CT & Digital input Fascia colourG Green S Silver3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG83. Step 2: Wiring3.1 Terminal LayoutWarningEnsure that you have the correct supply for your controllerCheck order code of the controller supplied- + Line Supply 85 to 264Vac 50/60Hz OR Low Voltage Supply 24Vac/dc Input/Output 1 Input - Digital Output - Relay orLogic or DCOutput 2 Relay or Logic orDC3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG93.2 Wire SizesThe screw terminals accept wire sizes from 0.5 to 1.5 mm (16 to 22AWG). Hinged covers prevent hands or metal making accidental contact with live wires. The rear terminal screws should be tightened to 0.4Nm (3.5lb in).3.3 PV Input (Measuring Input)• Do not run input wires together with power cables • When shielded cable is used, it should be grounded at one point only • Any external components (such as zener barriers, etc) connected between sensor and input terminals may cause errors in measurement due to excessive and/or un-balanced line resistance or possible leakage currents3.3.1 Thermocouple Input• For thermocouple input use the correct compensating cable preferably shielded3.3.2 RTD Input • The resistance of the three wires must be the same. The line resistance may cause errors if it is greater than 22Ω3.3.3Linear Input (mA or V)• A line resistance for voltage inputs may cause measurement errors• Volts input (input resistance 100K Ω). An external adaptor is required, Part No. SUB21/I1 • For mA input connect the 2.49Ω burden resistor, supplied, across the + and - input3.4 AA Output Relay (Optional)•Changeover relay (Form C) rated 2A 264Vac resistive3.5 Input/Output 1 (Relay or Logic or DC - Optional)• This is optional and may be logic input, logic output, relay output or 0-20mA dc output:-Relay Normally open (Form A), 2A 264Vac resistiveOutputLogic Drive to SSR (not isolated)Logic level On/High - 12Vdc at 5 to 40mA maxLogic level Off/Low - <100mV <100µADC 0-20mA, load 500Ω max, cal accuracy 1% +100µA offsetInput Logic (Digital) Contact closure 12V @ 5-40mAContact open > 500ΩContact closed < 200Ω3.6 Output 2 (Relay or Logic or DC - Optional)This is optional and is output only. It may be relay, logic or 0-20mA dc output as Output 1.* General Note About Relays and Inductive LoadsHigh voltage transients may occur when switching inductive loads such as some contactors or solenoid valves. Through the internal contacts, these transients may introduce disturbances which could affect the performance of the instrument. For this type of load it is recommended that a ‘snubber’ is connected across the normally open contact of the relay switching the load. The snubber recommended consists of a series connected resistor/capacitor (typically 15nF/100Ω). A snubber will also prolong the life of the relay contacts.WARNINGWhen the relay contact is open or it is connected to a high impedance load, the snubber passes a current (typically 0.6mA at 110Vac and 1.2mA at 240Vac). You must ensure that this current will not hold on low power electrical loads. If the load is of this type the snubber should not be connected.3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 103216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG113.7 Digital Communications (Optional)Digital communications uses the Modbus protocol. The interface may be ordered as RS232 or RS485 (2-wire).HD CommonHE Rx HF TxRS232ConnectionsHD Common HE Rx HF Tx RS485RS232/RS485 2-wire communicationsconverter eg KD485Daisy Chain to further3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG123.8Current Transformer/Logic Input (Optional)A current transformer can be connected directly to the controller to monitor the actual rms current supplied to an electrical load.3.8.1Current Transformer Input (CT)CT input current 0 to 50mA rms (sine wave, calibrated) 50/60Hz. A burden resistor, value 10Ω, is fitted inside the controller. It is recommended that the current transformer is fitted with a voltage limiting device, such as two back to back zener diodes between 3 and 10V and rated for 50mA.CT input resolution 0.1A for scale up to 10A, 1A for scale 11 to 100A CT input accuracy +4% of reading3.8.2Logic Input (LA)A digital (logic) input from a volt free contact can be configured to select Setpoint 2, Keylock, Timer Run/Hold, Timer Reset, Alarm Acknowledge or Auto/Manual.Digital Input Contact closure 12V @ 5-40mA Contact open > 500Ω Contact closed < 200ΩNote: This supplies 12Vdc at up to 10mA to terminal LAThe common connection is shared for each of these inputs and is, therefore, not isolated.3.9 Power Supply1.Before connecting the instrument to the power line, make sure that the line voltage corresponds to the descriptionon the identification label. Use copper conductors only. 2. For 24V the polarity is not importantThe power supply input is not fuse protected. This should be provided externally: Instrument fuse ratings are as follows:-• For 24 V ac/dc fuse type T rated 2A 250V •For 85/265Vac fuse type T rated 2A 250V3.10 Example Wiring DiagramThis example shows heat/cool temperature controller where the heater control uses a SSR and the cooling control uses a relay.Safety requirements for permanently connected equipment state:• A switch or circuit breaker shall be included in the building installation• It shall be in close proximity to the equipment and within easy reach of the operator• It shall be marked as the disconnecting device for the equipmentNote: a single switch or circuit breaker can drive more than one instrument3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 133216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG144. Installation Safety RequirementsSafety SymbolsVarious symbols may be used on the controller. They have the following meaning:PersonnelInstallation must only be carried out by suitably qualified personnelEnclosure of Live PartsTo prevent hands or metal tools touching parts that may be electrically live, the controller must be enclosed in an enclosure.Caution: Live sensorsThe controller is designed to operate with the temperature sensor connected directly to an electrical heating element. However you must ensure that service personnel do not touch connections to these inputs while they are live. With a live sensor, all cables, connectors and switches for connecting the sensor must be mains rated.WiringIt is important to connect the controller in accordance with the wiring data given in this guide. Take particular care not to connect AC supplies to the low voltage sensor input or other low level inputs and outputs. Only use copper conductors for connections (except thermocouple inputs) and ensure that the wiring of installations comply with all local wiring regulations. For example in the UK use the latest version of the IEE wiring regulations, (BS7671). In the USA use NEC Class 1 wiring methods.Power IsolationThe installation must include a power isolating switch or circuit breaker. This device should be in close proximity to the controller, within easy reach of the operator and marked as the disconnecting device for the instrument.Overcurrent protectionThe power supply to the system should be fused appropriately to protect the cabling to the units.!Caution, (refer to accompanying documents) Equipment protected throughout by DOUBLE INSULATIONVoltage ratingThe maximum continuous voltage applied between any of the following terminals must not exceed 264Vac:! relay output to logic, dc or sensor connections;! any connection to ground.The controller must not be wired to a three phase supply with an unearthed star connection. Under fault conditions such a supply could rise above 264Vac with respect to ground and the product would not be safe.Conductive pollutionElectrically conductive pollution must be excluded from the cabinet in which the controller is mounted. For example, carbon dust is a form of electrically conductive pollution. To secure a suitable atmosphere in conditions of conductive pollution, fit an air filter to the air intake of the cabinet. Where condensation is likely, for example at low temperatures, include a thermostatically controlled heater in the cabinet.Over-temperature protectionWhere damage or injury is possible, we recommend fitting a separate over-temperature protection unit, with an independent temperature sensor, which will isolate the heating circuit.Please note that the alarm relays within the controller will not give protection under all failure conditions.Installation requirements for EMCTo ensure compliance with the European EMC directive certain installation precautions are necessary as follows:For general guidance refer to Eurotherm Controls EMC Installation Guide, HA025464.When using relay outputs it may be necessary to fit a filter suitable for suppressing the emissions. The filter requirements will depend on the type of load. For typical applications we recommend Schaffner FN321 or FN612.3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 155. Switch OnA brief start up sequence consists of a self test in which all elements of the display are illuminated and the software version number is shown. What happens next depends on one of two conditions;-1. The instrument is new and has been supplied un-configured (go to section 5.1)2. The instrument has been supplied configured in accordance with the Quick Start code (go to section 5.3)5.1 InitialConfigurationIf the controller has not previously been configured it will start up showing the ‘Quick Configuration’ codes. This is a built in tool which enables you to configure the input type and range, the output functions and the display format.The quick code consists of two ‘SETS’ of five characters. The upper section of the display shows the setselected, the lower section shows the five digits which make up the set. Adjust these as follows:-.1. Press any button. The * characters will change to ‘-‘ the first one flashing. x indicates the optionis not fitted2. Press v or w to change the character currently flashing to the required code shown in the quick code tables.3. Press !to scroll to the next character. If you need to return to the first character press !. When all fivecharacters have been configured the display will go to Set 2.When the last digit has been entered press !again,the display will show N oExi TPress v or w to YES.The controller will automatically go to the operator level.3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 163216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 173216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG18To Re-Enter Quick Code modeIf you need to re-enter the ‘Quick Configuration’ mode, power down the controller, hold down the!button, then power up the controller. Keep the button pressed until ‘c o d e ’ appears. You must then enter a passcode using thevor w buttons. In a new controller the passcode defaults to 4. If an incorrect passcode is entered you must repeat the whole procedure. You can then re-configure the controller through the Quick Codes.Note:- If the quick codes re-appear with decimal points between each character this means THE QUICK CODES MAY NO LONGER BE VALID. This is because a parameter (not necessarily a Quick Code parameter) which is available in the controller in a deeper level of access* has been altered. You can, however, re-adjust the Quick Codes again at thispoint (or proceed to the Y e sE xiT state) to re-configure the controller. * The procedure for a full configuration is described in the 3116/3216 Engineering Handbook Part No. HA027986 whichmay be downloaded from .3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG195.3 Pre-Configured Controller or Subsequent StartsThe controller will briefly display the quick codes during start up but will then proceed to operator level 1. Note:- If the Quick Codes do not appear during start up this means that the controller has been re-configured in a deeper level of access, as stated above, and the Quick Codes may no longer be valid. The controller will power up in mode it was in prior to shutdown and you will see the display shown below. It is called the HOME display.Measured Temperature (or Process Value ‘PV’) Required Temperature (or Setpoint ‘SP’) The OP1 beacon will be on if output 1 is configured for heat and calling for power In this view the controller is in AUTO mode5.4 OperatorInterface Beacons:-SPX Alternative setpoint in use (SP2)ALM Alarm active (Red)RUN Timer runningRUN (flashing) Timer in holdMAN ManualOperator Buttons:-!From any display -press to return to the HOME display!Press to select a new parameter. If held down it will continuously scroll through parameters.wPress to decrease an analogue value or to change the state of a digital (enumerated) valuevPress to increase an analogue value or to change the state of a digital (enumerated) value3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 205.4.1 To Set The Required Temperature.From the HOME display:-Press v to raise the setpointPress w to lower the setpointThe new setpoint is entered when the button is released and is indicated by a brief flash of the display.5.4.2 Alarm IndicationIf an alarm occurs the red ALM beacon will flash, a scrolling message will give the source of the alarm and the alarm (relay) output will operate.Press !and !(ACK)together to acknowledgeIf the alarm is still present the ALM beacon lights continuously.The action which takes place depends on the type of alarm configured:-Non latching A non latching alarm will reset itself when the alarm condition is removedAuto Latching An auto latching alarm requires acknowledgement before it is reset. The acknowledgement can occur BEFORE the condition causing the alarm is removed.Manual Latching The alarm continues to be active until both the alarm condition is removed AND the alarm is acknowledged. The acknowledgement can only occur AFTER the condition causing the alarm is removed.3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 21Mode5.4.3 Auto/Manual/OffAuto mode is the normal closed loop operation where the output is adjusted automatically by the controller in response to a change in the input signal.Manual mode means that the controller output power can be adjusted directly by the user. The input sensor is still connected and reading the PV but the control loop is open. The current level of the power output is adopted at the point of switch over from Auto to Manual. This is referred to as ‘Bumpless Transfer’. The power output can be increased or decreased using the w or v buttons. Similarly, when Manual to Auto is selected the current manual output power is taken and the controller will then take over control. If the controller is powered down it will resume the same mode when powered up again.Off mode can be selected or when using a timer configured to turn the power output off at the end of a timed period.!Manual operation must be used with care and the power level set must be chosen such that no damage can occur to the process. The use of a separate ‘over-temperature’ controller is recommended.3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 223216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG235.4.4To Select Manual Operation and Adjust the Output PowerPress and hold w and v(Mode) together for more than 1 second. This can only beaccessed from the HOME display.1. ‘Auto ’ is shown in the upper display. The lower display will scroll the longer alternatedescription of this parameter, ie ’l o o p m o d e – a u t o m a n u a l o f f ’ 2. Pressvto select ‘mAn ’. This is shown in the upper display and the MAN beacon is lit. 3. The controller will return to the HOME display. The upper display shows PV. The lowerdisplay shows demand power. At the point of changeover the manual demand power is the same as it was when in Auto (bumpless transfer auto to manual).4. Pressw orvto lower or raise the power. The output power is continuously updated when these buttons are pressed 5.The loop can also be turned off (zero power output demand) by selecting ‘OFF ’ in theupper display. Loop break is also turned off. The controller will return to the HOMEdisplay. The upper display shows the PV. The lower display shows O FF . The MAN beaconis lit in this mode.6.To Return to Automatic operation, press w andvtogether. Then press w to select ‘Auto ’. At the point of changeover to automatic operation the power demand takes the current value and gradually changes to that required by the controller bumpless transfer manual to auto)t + utt + u5.4.5 Other Commonly Used Operator Parameters Available in Level 1Operator level 1 is designed for day to day operation of the controller and parameters are not protected by a security code.Press ! to scroll through a list of commonly used parameters.A list of other operating parameters is available each time this button is pressed. The parameter mnemonic and its scrolling description are shown in the lower display. The value of the parameter is shown in the upper display. The actual parameters shown depend upon the functions configured and are:-3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 246. Operator Level 2Level 2 provides access to additional parameters and access to these is protected by a security code.6.1 To Enter Level 21. From any display press and hold!.2. After a few seconds the display will show ‘Lev1G ot o’.3. Release!.(If no button is pressed for about 45 seconds the display returns to the HOME display)4. Press v or w to choose Lev 2 (Level 2)5. Press v or w to enter the correct code6. By default this is set to ‘2’If an incorrect code is entered the display reverts to Level 1.6.2 To Return to Level 11. Press and hold!2. Presswto select LEv 1It is not necessary to enter a code when going from a higher level to a lower level.When Level 1 is selected the display reverts to the HOME display0.5sec3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 256.3 Level 2 ParametersPress !to scroll through the list of parameters.The mnemonic of the parameter is shown in the lower display, followed once by a scrolling help message showing a longer description of the parameter.The value of the parameter is shown in the upper display. Press v or w to adjust this value. If no key is pressed for about 30 seconds the display returns to ‘HOME’Backscroll is achieved when you are in the list by pressing v while holding down !.Mnemonic Scrolling Display and description Range WKG.SP WORKING SETPOINT is the current target setpoint and appears whenthe controller is in Manual. It may be derived from SP1 or SP2, or, ifthe controller is ramping (see SP.RAT), it is the current ramp value.SP.HI to SP.LOWRK.OP WORKING OUTPUT is the output from the controller expressed as a percentage of full output. It appears when the controller is in Auto.Range –100% (Max cooling) to +100% (max heating).For a time proportioning output, 50% = relay or logic output on or offfor equal lengths of time.For an On/Off output 0 to <1% = output off, >1 to 100% = output on 0 to 100% heat only-100 to 100% heat + cool rES Resetrun Running hoLd HoldT.STAT TIMER STATUS is only shown if a timer is configured. Allows thetimer to be put into Run, Hold or Reset mode.End Timed out3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG 263216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG27UNITS DISPLAY UNITSO C Degrees C O F Degrees F OkDegrees K nonE NonePErcPercentageSP.HI SETPOINT HIGH allows a high limit to be applied to SP1 and SP2 SP.LO SETPOINT LOW allows a low limit to be applied to SP1 and SP2 As quickcode SET1 SP1 SETPOINT 1 allows the value of setpoint 1 to be adjusted SP.HI to SP.LO SP2 SETPOINT 2 allows the value of setpoint 2 to be adjustedSP.HI to SP.LOSP.RATSETPOINT RATE LIMIT sets the rate of change of setpoint. Limits the rate of heating or cooling.OFF to 3000 display units per minute This section applies to the Timer only – see also section 6.4none None Dwel DwellDeLy Delayed switch on sfst Soft start TM.CFGTIMER CONFIGURATION configures the timer type - Dwell, Delay, Soft Start or none (only when in Reset)Note Programmer option is only shown if the programmer option has been ordered.Prog Programmer TM.RES TIMER RESOLUTION selects hours or minutes (only when in Reset)Hour minHours Minutes3216 User Guide Part No. HA027985ENG Issue 2.0 May 04ENG28THRESTIMER START THRESHOLD The timer will not run until the PV becomes in range of the value set by this parameter. This value can be changed when the timer is running.OFF or 1 to 3000OFF Control OP goes to zeroDwel Control continues at SP1 END.TTIMER END TYPE The action of the timer when it has timed out can be selected from Dwell (control continues at the setpoint), Off(control outputs turn off), SP2 (control at setpoint 2). Can be changed while the timer is running.SP2Go to SP2SS.PWR SOFT START POWER LIMIT Sets the power limit during start up -100 to 100%SS.SP SOFT START SETPOINT sets the threshold below which the power is limitedBetween SP.HI and SP.LO DWELL SET TIME DURATION - can be adjusted while the timer is running. This parameter only appears for a Dwell type timer. 0:00 to 99.59 hh:mm: or mm:ssT.REMNTIME REMAINING Time remaining to reach the set time0:00 to 99.59 hh:mm: or mm:ss The following parameters are available when the timer is configured as a programmer – see also section 6.9 SERVO SERVO MODE . The program will start from the current setpoint value or from the current value of the process variableSP PV Setpoint Process variableTSP.1 TARGET SETPOINT 1. To set the target value for the first setpoint RMP.1 RAMP RATE 1. To set the first ramp rate DWEL.1DWELL 1. To set the period of the first dwell。

7/ ² 2:1(56 0$18$/Sr v v ÃÃ!08/21/1999TQ@8DAD86UDPITNumber of channels32 or 16 depending on modeOperating modes16 channels x 2 scenes32 channels x 1 scene16 channels and 16 recorded scenesScene memory16 scenes totalChase 2 programmable 23 step chasesControl protocol LMX (3 pin multiplex) (Optional DMX-512)Output connector 3 pin mic. XLR connector (5 pin mic. XLR for DMX-512)Compatibility Multiplex protocol compatible with other 3 pin multiplexed systemsPower input18VAC or 15VDC (Optional external power supply)Power consumption70maOther features of the TL-3216 include: Grand master fader, split dipless crossfader, momentary "bump" buttons, and blackout control. Both 23 step chases may be activated simultaneously for complex patterns. Chase rate is set by tapping the rate button at the desired rate. The TL-3216 also offers the ability to link with a second TL-3216 console or a TL-1608 console for increased capacity using a single multiplex control cable.DITU6GG6UDPIThe TL-3216 control console should be kept away from moisture and direct sources of heat.Connect the unit to a Lightronics (or compatible) dimmer using a multiplex control cable with 3 pin XLR connectors. The TL-3216 is powered by the dimmer which it is connected to. It may also be powered via an optional external power supply. The unit will operate with dimmers in both the NSI/SUNN and Lightronics modes. All dimmers connected to the unit MUST be in the SAME mode.To reset chases to the factory programmed defaults: Remove power from the unit. Hold down the CHASE 1 and CHASE 2 buttons. Apply power to the unit while holding these buttons down. Continue to hold down the buttons for approximately 5 seconds then release.To reset scenes to the factory programmed defaults: Remove power from the unit. Hold down the RECORD button. Apply power to the unit while holding this button down. Continue to hold down the button for approximately 5 seconds then release.You should check the address settings of the dimmers before proceeding with TL-3216 operation.8PIUSPGTÃ6I9ÃDI9D86UPST"X" faders:Control individual channel levels"Y" faders:Control level of scenes or individual channels depending on current operating modeCross fader:Fade between "X" and "Y" fadersBump buttons:Activate associated channels at full intensity while pressedChase select:Turn chases on and offChase rate:Press three or more times at desired rate to set chase speedMode indicator:Indicates current operating mode of "Y" faders"Y" function select:Selects operating mode of "Y" fadersBlackout button:Turns on and off console output from all scenes, channels and chasesBlackout indicator:Lighted when blackout is active.Grand master:Adjusts output level of all console functionsRecord button:Used for recording scenes and chase patternsRecord Indicator:Flashes when Chase or scene recording is active.PQ@S6UDIBÃHP9@TThe TL-3216 is capable of operating in three different modes. The upper 16 faders always control the level of channels 1 through 16. Pressing the "Y MODE” button changes the function of the lower 16 faders. The selected mode is indicated by the mode LEDs. The three Y operating modes are:l "CH 1-16"In this mode both the upper and lower rows of faders control channels 1 through 16. The cross fader is used to fade between the upper and lower faders.l "CH 17-32"In this mode the lower faders become channels 17 through 32.l "SCENE 1-16"In this mode the lower 16 faders become recordable scenes.HPH@IU6S` 7VHQ Ã7VUUPIT8C6T@T@G@8UPSTB@I@S6GÃPQ@S6UDPIÃPAÃ8PIUSPGTCROSS FADER:The cross fader provides the ability to fade between the upper (X) faders and the lower(Y) faders. The cross fader is split into two parts giving you the ability to control the levelof the upper and lower groups of faders individually. In all modes, the "X" cross fadermust be up to activate the upper faders and the "Y" cross fader must be down toactivate the lower faders.MASTER:The master level fader controls the output level of all functions of the console.BUMP BUTTONS:These momentary buttons activate channels 1 through 16 while pressed. The masterfader determines the level of channels activated by the bump buttons.CHASE 1 & 2 BUTTONS:Press to select chase patterns. Chase LEDs will light when a chase is active. CHASE RATE BUTTON:Press 3 or more times at the desired rate to set chase speed. Chase rate LEDwill flash at the selected rate.BLACKOUT BUTTON:Pressing the blackout button causes all channels, scenes and chases to go tozero intensity. The blackout LED will light whenever the console is in blackoutmode.RECORD BUTTON:Press to record scenes and chase patterns. Record LED will light when inrecord mode.S@8PS9DIBÃ8C6T@T1)Press the "RECORD" button, the record LED will flash.2) Press the "CHASE 1" or "CHASE 2" button to select a chase to record.3)Bring the channel(s) you want to be on in this step to full.4)Press "RECORD" to move to the next step.5)Repeat steps 3 and 4 until all steps are recorded (up to 23 steps).6)Press the "CHASE 1" or "CHASE 2" button to stop recording.8C6T@ÃQG6`768F1)Press the "RATE" button 3 or more times at the desired rate to set the chase speed.2)Press "CHASE 1" and/or "CHASE 2" to turn chases on and off.Note: Both chases may be on at the same time. If chases have a different number of steps, complex, changing patterns can be created.S@8PS9DIBÃT8@I@T1)Choose either operating mode and create the scene to be recorded.2)Press "RECORD".3)Press the bump button below the fader you wish to record the scene to.Note: Scenes may be recorded even if blackout is on or the master fader is down. Scenes may include other scenes if recorded while in the "SCENE 1-16" mode. This allows you to copy from one scene to another to move it or create modified versions.T8@I@ÃQG6`768F1)Select the "SCENE 1-16" mode.2)Bring up a fader on the lower row that has had a scene recorded to it.Note: The "Y" cross fader must be down to use lower faders.H6DIU@I6I8@Ã6I9ÃS@Q6DSTROUBLESHOOTINGCheck that the multiplex cable is not defective.To simplify troubleshooting - reset the unit to provide a known set of conditions.Make sure that the dimmer address switches are set to the desired channels.OWNER MAINTENANCEThe best way to prolong the life of your TL-3216 is to keep it dry, cool, clean and covered when not in use.The unit exterior may be cleaned using a soft cloth dampened with a mild detergent/water mixture or a mild spray-on type cleaner. DO NOT SPRAY ANY LIQUID directly on the unit. DO NOT IMMERSE the unit in any liquid or allow liquid to get into the controls. DO NOT USE any solvent based or abrasive cleaners on the unit.There are no user serviceable parts in the unit. Service by other than Lightronics authorized agents will void your warranty.OPERATING AND MAINTENANCE ASSISTANCEDealer and Lightronics Factory personnel can help you with operation or maintenance problems. Please read the applicable parts of this manual before calling for assistance.If service is required - contact the dealer from whom you purchased the unit or contact Lightronics, Service Dept.。