TM 2.4.49 Solder Pool Test

Agilent E8257D PSG Analog Signal GeneratorData SheetThe Agilent E8257D is a fully synthesized signal generator with high output power, low phase noise, and optional ramp sweep capability.Specifications apply over a 0 to 55 °C range, unless otherwise stated, and apply after a 45 minute warm-up time. Supplemental characteristics, denoted as typical, nominal, or measured, provide additional (non-warranted) information at 25 °C, which may be useful in the application of the product.DefinitionsSpecifications (spec): Represents warranted performance for instruments with a current calibration.Typical (typ): Represents characteristic performance which is non-warranted. Describes performance that will be met by a minimum of 80% of all products.Nominal (nom): Represents characteristic performance which is non-warranted.Represents the value of a parameter that is most likely to occur; the mean and/or mode of all measurements of a parameter.Measured: Represents characteristic performance which is non-warranted. Representsthe value of a parameter measured on an instrument during design verification.Table of Contents2Specifications1. Operational, but unspecified, down to 100 kHz.2. In ramp sweep mode (Option 007), resolution is limited with narrow spans and slow sweep speeds. Refer to ramp sweepspecifications for more information.3. Time from GPIB trigger to frequency within 0.1 ppm of final frequency above 250 MHz or within 100 Hz below 250 MHz.4. Add 12 ms (typical) when switching from greater than 3.2 GHz to less than 3.2 GHz.5. N is a factor used to help define certain specifications within the document.6. To optimize phase noise use 5 dBm ± 2 dB.7. Standard performance applies to units with serial numbers ending with 48050000 or greater. For units with lower serialnumbers, refer to the data sheet shipped with the unit or the version of this document dated November 5, 2007.32. During ramp sweep operation, AM, FM, phase modulation, and pulse modulation are useable but performance is not guaranteed.3. Minimum settable sweep span is proportional to carrier frequency and sweep time. Actual sweep span may be slightlydifferent than desired setting for spans less than [0.00004% of carrier frequency or 140 Hz] x [sweep time in seconds]. Actualspan will always be displayed correctly.4. Typical accuracy for sweep times > 100 ms can be calculated from the equation: [(0.005% of span)/(sweep time in seconds)]± timebase. Accuracy is not specified for sweep times < 100 ms.5. For master/slave operation use Agilent part #8120-8806 master/slave interface cable.6. When measuring low-pass devices in AC mode, dynamic range may be reduced up to 10 dB below 3.2 GHz. An externalhighpass filter may be required to remove 27 kHz pulse source feed-through (For instruments operating from 10 MHz to 20 GHzwith 3.5 mm connectors, use Bias Tee part number 5086-7322. For instruments operating from 10 MHz to 50 GHz with 2.4 mmconnectors, use Bias Tee part number 5086-7484.)7. GPIB system interface is not supported with 8757A/C/E, only with 8757D. As a result, some features of 8757A/C/E, suchas frequency display, pass-through mode, and alternate sweep, do not function with PSG signal generators.4range typically degrades less than 2 dB.2. With harmonic filters switched off. With filters on, maximum output power is reduced 3 dB for frequencies below 2 GHz.3. W ith harmonic filters switched off. With filters on, maximum output power is reduced 2 dB for frequencies below 2 GHz.4. Specification applies to units with serial numbers ending with 45470000 or greater. For units with lower serial numbers, refer to the datasheet shipped with the unit or the version of this document dated December 16, 2004.5. Standard performance applies to units with serial numbers ending with 48050000 or greater. For units with lower serial numbers, refer to the data sheet shipped with the unit or the version of this document dated November 5, 2007.56Option 520 with Option 1EA (measured2624222018160 5000Frequency (MHz)Option 550/567 with Option 1EA (measurO u t p u t p o w e r (d B m )Frequency (GHz)302520151050010203040506070Option 532/540 with Option 1EA (measu2624222018160 10000Frequency (MHz)1. The step attenuator provides coarse power attenuation to achieve low power levels. Fine power level adjustment is provided by the ALC (Automatic Level Control) within the attenuator hold range.2. To within 0.1 dB of final amplitude within one attenuator range. Add 10 to 50 ms when using power search.3. Specifications apply in CW and list/step sweep modes over the 15 to 35 ºC temperature range with the ALC on. Degradation outside this range, for power levels > –10 dBm, is typically < 0.3 dB. In ramp sweep mode (with Option 007), specifications are typical. For instruments with Type-N connectors (Option 1ED), specifications are degraded typically 0.2 dB above 18 GHz. Specifications do not apply above the maximum specified power.71. Specifications apply in CW and list/step sweep modes over the 15 to 35 ºC temperature range, with attenuator hold off(normal operating mode). Degradation outside this range, for ALC power levels > –10 dBm, is typically < 0.3 dB. In ramp sweep mode (with Option 007), specifications are typical. For instruments with type-N connectors (Option 1ED), specifications are degraded typically 0.2 dB above 18 GHz. Specifications do not apply above the maximum specified power. 2. Options 550 and 567: 0.03dB/°C (typ) above 2 GHz.3. Compatible with Agilent EPM Series (E4418B and E4419B) power meters.0.01 dB 0.01 dB/°C (typ)22 to 1601 points/table 0.250.20.150.10.050-0.05-0.1-0.15-0.2E r r o r r (d B )Frequency (GHz)Option 520 with Option 1E1 at -110 dBm (me48121620Option 550/567 with Option 1E1 at -90 dBm E r r o r r (d B )Frequency (GHz)1020304050607010.50-0.5-10.80.60.40.20-0.2-0.4-0.6-0.8E r r o r r (d B )Frequency (GHz)Option 532/540 with Option 1E1 at -110 dBm1020304081. Specifications are typical for harmonics beyond specified frequency range (beyond 50 GHz for Option 567).2. Specification applies to units with serial numbers ending with 45130000 or greater. For units with lower serial numbers, the specification is –28 dBc.3. Typical below 250 MHz if Option 1EH is installed and the filters are off.4. In ramp sweep mode (Option 007), harmonics are –30 dBc below 250 MHz.Option 520 standard harmonic performance (measured)Frequency (MHz)0 2000 4000 6000-30-40-50-60-70-80H a r m o n i c s (d B c )-3-4-5-6-7-8H a r m o n i c s (d B c )armonic ed)Option 532/540 standard ha performance (measured)Frequency (MHz)6000 8000 100000 5000 1000-30-40-50-60-70-80H a r m o n i c s (d B c )Option 567 standard harmonic performance2n d h a r m o n i c (d B c )Carrier frequency (GHz)-30-40-50-60-70-80-90-1005101520253035StandardCarrier frequency (MHz)Standard vs.Option 1EH harmonics (measu2n d h a r m o n i c (d B c )0-10-20-30-40-50-60-70-80-900500100015002000Option 1EHSub-harmonics1(dBc at +10 dBm or maximum specified outputpower, whichever is lower)250 kHz to 10 GHz None> 10 GHz to 20 GHz < –60 dBc> 20 GHz < –50 dBcNon-harmonics2(dBc at +10 dBm or maximum specified outputpower, whichever is lower, for offsets > 3 kHz[> 300 Hz with Option UNX or UNR])Frequency Spec Typical250 kHz to 250 MHz –65 –72 for > 10 kHz offsets> 250 MHz to 1 GHz –80 –88> 1 to 2 GHz –74 –82> 2 to 3.2 GHz –68 –76> 3.2 to 10 GHz –62 –70> 10 to 20 GHz –56 –64> 20 to 40 GHz –50 –58> 40 GHz –44 –52SSB phase noise (CW)3Offset from carrier (dBc/Hz)Frequency 20 kHz 20 kHz (typical)250 kHz to 250 MHz4–130 –134> 250 to 500 MHz4–134 –138> 500 MHz to 1 GHz4–130 –134> 1 to 2 GHz4–124 –128> 2 to 3.2 GHz –120 –124> 3.2 to 10 GHz –110 –113> 10 to 20 GHz –104 –108> 20 to 40 GHz –98 –102> 40 to 67 GHz –92 –96Option UNR: Enhanced SSB phase noise (CW)3Offset from carrier (dBc/Hz)Frequency 100 Hz 1 kHz 10 kHz 100 kHzspec (typ) spec (typ) spec (typ) spec (typ)250 kHz to 250 MHz4–94 (–115) –110 (–123) –128 (–132) –130 (–133)> 250 to 500 MHz4–100 (–110) –124 (–130) –132 (–136) –136 (–141)> 500 MHz to 1 GHz4–94 (–104) –118 (–126) –130 (–135) –130 (–135)> 1 to 2 GHz4–88 (–98) –112 (–120) –124 (–129) –124 (–129)> 2 to 3.2 GHz –84 (–94) –108 (–116) –120 (–125) –120 (–125)> 3.2 to 10 GHz –74 (–84) –98 (–106) –110 (–115) –110 (–115)> 10 to 20 GHz –68 (–78) –92 (–100) –104 (–107) –104 (–109)> 20 to 40 GHz –62 (–72) –86 (–94) –98 (–101) –98 (–103)> 40 to 67 GHz –56 (–66) –80 (–88) –92 (–95) –92 (–97)1. Sub-harmonics are defined as Carrier Freq / N). Specifications are typical for sub-harmonics beyond specified frequencyrange (beyond 50 GHz for Option 567).2. Specifications are typical for spurs beyond specified frequency range (beyond 50 GHz for Option 567). Specifications applyfor CW mode, without modulation. In ramp sweep mode (Option 007), performance is typical for offsets > 1 MHz.3. Phase noise specifications are warranted from 15 to 35 °C.4. Measurement at +10 dBm or maximum specified output power, whichever is less.9Option UNX: Absolute SSB phase noise (dBc/Hz)(CW)1Offset from carrierFrequency 1 Hz 10 Hz 100 Hz 1 kHz 10 kHz 100 kHzSpec (typ) Spec (typ) Spec (typ) Spec (typ) Spec (typ) Spec (typ) 250 kHz to 250 MHz2–58 (–66) –87 (–94) –104 (–120) –121 (–128) –128 (–132) –130 (–133) > 250 to 500 MHz2–61 (–72) –88 (–98) –108 (–118) –126 (–132) –132 (–136) –136 (–141) > 500 MHz to 1 GHz2–57 (–65) –84 (–93) –101 (–111) –121 (–130) –130 (–134) –130 (–135) > 1 to 2 GHz2–51 (–58) –79 (–86) –96 (–106) –115 (–124) –124 (–129) –124 (–129) > 2 to 3.2 GHz –46 (–54) –74 (–82) –92 (–102) –111 (–120) –120 (–124) –120 (–124) > 3.2 to 10 GHz –37 (–44) –65 (–72) –81 (–92) –101 (–109) –110 (–114) –110 (–115) > 10 to 20 GHz –31 (–38) –59 (–66) –75 (–87) –95 (–106) –104 (–107) –104 (–109) > 20 to 40 GHz –25 (–32) –53 (–60) –69 (–79) –89 (–99) –98 (–101) –98 (–103) > 40 to 67 GHz –20 (–26) –47 (–56) –64 (–73) –84 (–90) –92 (–95) –92 (–97) Option UNX: Residual SSB phase noise (dBc/Hz) (CW)1Offset from carrierFrequency 1 Hz 10 Hz 100 Hz 1 kHz 10 kHz 100 kHzSpec (typ) Spec (typ) Spec (typ) Spec (typ) Spec (typ) Spec (typ) 250 kHz to 250 MHz2(–94) –100 (–107) –110 (–118) –120 (–126) –128 (–132) –130 (–133) > 250 to 500 MHz2(–101) –105 (–112) –115 (–122) –124 (–131) –132 (–136) –136 (–141) > 500 MHz to 1 GHz2(–94) –100 (–107) –110 (–118) –120 (–126) –130 (–134) –130 (–134) > 1 to 2 GHz2(–89) –96 (–101) –104 (–112) –114 (–120) –124 (–129) –124 (–129) > 2 to 3.2 GHz (–85) –92 (–97) –100 (–108) –110 (–116) –120 (–124) –120 (–124) > 3.2 to 10 GHz (–74) (–87) (–98) (–106) (–114) (–115)1. Phase noise specifications are warranted from 15 to 35 °C.2. Measured at +10 dBm or maximum specified power, whichever is less.1011-40-50-60-70-80-90-100-110-120-130-140-150-160-170z H G 7640 GHz20 GHz10 GHz1 GHz L(f) (dBc/Hz) vs. f (Hz)10 100 1 k 10 k 100 k 1 M10 M 100 M -20-30-40-50-60-70-80-90-100-110-120-130-140-150-160-170L(f) (dBc/Hz) vs. f (Hz)1 10 100 1 k 10 k 100 k 1 M 10 M 100 M z H G 76 40 GHz 20 GHz 10 GHz 1 GHz L(f) (dBc/Hz) vs. f (Hz)Option UNX residual phase noise (measured)-70-80-90-100-110-120-130-140-150-160-1701 10 100 1 k 10 k 100 k 1 M 10 M 100 M10GHz3 GHz1 GHz L(f) (dBc/Hz) vs. f (Hz)AM noise at 10 GHz (measured)-20-30-40-50-60-70-80-90-100-110-120-130-140-150-160-170110100 1 k 10 k 100 k 1 M 10 M 100 MAM noise at 10 GHz Residual phase noiseStandard phase noise1.Measured standard performance applies to units with serial numbers ending with 48050000 or greater. For units with lower serial numbers, refer to the data sheet shipped with the unit or the version of this document dated November 5, 2007.1. Calculated from phase noise performance in CW mode only at +10 dBm. For other frequencies, data rate, or bandwidths,please contact your sales representative.122. Through any combination of path1, path2, or path1 + path2.3. Specifications apply in CW and list/step sweep modes. During ramp sweep operation (Option 007), 3 dB bandwidth is typically 50 kHz to 10 MHz(FM1 path), and 50 kHz to 1 MHz (FM2 path).4. At the calibrated deviation and carrier frequency, within 5 °C of ambient temperature at time of user calibration.5. Above 50 GHz, phase modulation is useable; however performance is not warranted.6. Through any combination of path1, path2, or path1 + path2.7. Specifications apply in CW and list/step sweep modes. During ramp sweep operation (Option 007), 3 dB bandwidth is typically 50 kHz to 1 MHz(high BW mode).8. Path 1 is useable to 4 MHz for external inputs less than 0.3 V peak.13(part of Option UNT)(typical)1. AM specifications are typical. For carrier frequencies below 2 MHz or above 50 GHz, AM is useable but not specified. Unlessotherwise stated, specifications apply with ALC on and envelope peaks within ALC operating range (–20 dBm to maximumspecified power, excluding step-attenuator setting).2. ALC Off is used for narrow pulse modulation and/or high AM depths, with envelope peaks below ALC operating range.Carrier power level will be accurate after a Power Search is executed.3. ALC On with Deep AM provides high AM depths together with closed-loop internal leveling. This mode can be used with arepetitive AM waveform (frequency > 10 Hz) with peaks > –5 dBm (nominal, excluding step-attenuator setting).14(Ext1 & Ext2)(Option UNT)Internal modulation source(Option UNT)1. Internal2 is not available when using swept sine or dual sine modes.15161. With ALC off, specs apply after the execution of power search. Specifications apply with Atten Hold Off (default mode for instruments with attenuator), or ALC level between –5 and +10 dBm or maximum specific power, whichever is lower. Above 50 GHz, pulse modulation is useable; however performance is not warranted.2. Power search is a calibration routine that improves level accuracy with ALC off. The instrument microprocessor momentarily closes the ALC loop to find the modulator drive setting necessary to make the quiescent RF level equal to an entered value, then opens the ALC loop while maintaining that modulator drive setting. When executing power search, RF power will be present for typically 10 to 50 ms; the step attenuator (Option 1E1) can be set to automatically switch to maximumattenuation to protect sensitive devices. Power search can be configured to operate either automatically or manually at the carrier frequency, or over a user-definable frequency range.3.With attenuator in 0 dB position. Video feed-through decreases with attenuator setting.Pulse modulation 1, 2(Option UNU)Narrow pulse modulation 1, 2(Option UNW)Measured pulse modulation envelopeFreq = 10GHz, Amp = 10dBM, ALC = OFF, Pulse w0 10 20 30 40Timebase (nsec)Internal pulse generator(Option UNU or UNW)Simultaneous modulation1. With attenuator in 0 dB position. Video feed-through decreases with attenuator setting.17Remote programmingInterfaces GPIB (IEEE-488.2,1987) with listen and talk,RS-232, and 10BaseT LAN interface.Control languages SCPI version 1997.0. Completely code compatiblewith previous PSG signal generator models:•E8241AE8244A•E8251A•E8254A••E8247C•E8257CThe E8257D will emulate the applicablecommands for the following Agilent signalgenerators, providing general compatibility withATEsystems:• 8340-series (8340/41B)• 8360-series (836xxB/L)• 83700-series (837xxB)8662A/63A•IEEE-488 functions SH1, AH1, T6, TE0, L4, LE0, SR1, RL1, PP0, DC1,DT0, C0, E2.ISO compliant This family of signal generators is manufacturedin an ISO-9001 registered facility in concurrencewith Agilent commitment to quality.Agilent IO Libraries Agilent’s IO Library Suite ships with the E8257Dto help you quickly establish an error-freeconnection between your PC and instruments –regardless of the vendor. It provides robustinstrument control and works with the softwaredevelopment environment you choose.181. Storage below –20 °C instrument states may be lost.2. As is the case with all signal generation equipment, phase noise specifications are not warranted in a vibrating environment.19Input/Output Descriptions(All connectors are BNC femaleunless otherwise noted.)1Rear panel connectors(all connectors are BNC femaleunless otherwise noted.)11. Digital inputs and output are 3.3 V CMOS unless indicated otherwise. Inputs will accept 5 V CMOS, 3 V CMOS, or TTL voltage levels.2021Options, Accessories,and Related Products Array1. Must be ordered with Option 1E1.2. Must be ordered with Option UNT and not available with Option UNU.3. Millimeter source module a product of Oleson Microwave Labs, Inc. and must be ordered with Option 1EA.4. Must be ordered with Options UNX and 1EH.22Web ResourcesLiterature23/fi nd/emailupdatesGet the latest information on the products and applications you select./fi nd/agilentdirectQuickly choose and use your test equipment solutions with confidence.Remove all doubtOur repair and calibration serviceswill get your equipment back to you, performing like new, when prom-ised. You will get full value out of your Agilent equipment through-out its lifetime. Your equipment will be serviced by Agilent-trained technicians using the latest factory calibration procedures, automated repair diagnostics and genuine parts. You will always have the utmost confi dence in your measurements. Agilent offers a wide range of ad-ditional expert test and measure-ment services for your equipment, including initial start-up assistance onsite education and training, as well as design, system integration, and project management.For more information on repair and calibration services, go to:/fi nd/openAgilent Open simplifi es the process of connecting and programming test systems to help engineers design, validate and manufacture electronic products. Agilent offers open connectivity for a broad range of system-ready instruments, open industry software, PC-standard I/O and global support, which are combined to more easily integrate test system development./find/removealldoubtFor more information on Agilent T echnologies’products, applications or services, please contact your local Agilent office. The complete list is available at:/fi nd/contactusAmericasCanada (877) 894-4414 Latin America 305 269 7500United States (800) 829-4444Asia Pacifi c Australia 1 800 629 485China 800 810 0189Hong Kong 800 938 693India 1 800 112 929Japan 0120 (421) 345Korea 080 769 0800Malaysia 1 800 888 848Singapore 180****8100Taiwan 0800 047 866Thailand 1 800 226 008 Europe & Middle East Austria 0820 87 44 11Belgium 32 (0) 2 404 93 40 Denmark 45 70 13 15 15Finland 358 (0) 10 855 2100France 0825 010 700**0.125 €/minute Germany 01805 24 6333****0.14 €/minuteIreland 1890 924 204Israel 972-3-9288-504/544Italy 39 02 92 60 8484Netherlands 31 (0) 20 547 2111Spain 34 (91) 631 3300Sweden 0200-88 22 55Switzerland 0800 80 53 53United Kingdom 44 (0) 118 9276201Other European Countries: /fi nd/contactusRevised: March 27, 2008Product specifi cations and descriptions in this document subject to change without notice.© Agilent Technologies, Inc. 2008Printed in USA, June 23, 20085989-0698EN。

Project Number:Tracking Code: TC0547--0887 Requested by: Gary LewisDate: 11/17/2005Product Rev: 1Part #: SQCD-025-06.00-STR-TEU-1 Lot #: N/ATech: Troy CookEng: Dave ScopellitiPart description: SQCD Qty to test: 75Test Start: 04/12/2006 Test Completed: 7/27/2006SQCD-0XX-X.XX-XXX-XXX-XDVT ReportCERTIFICATIONAll instruments and measuring equipment were calibrated to National Institute for Standards and Technology (NIST) traceable standards according to IS0 10012-l and ANSI/NCSL 2540-1, as applicable.All contents contained herein are the property of Samtec. No portion of this report, in part or in full shall be reproduced without prior written approval of Samtec.SCOPETo perform the following tests: CCC, IR/DWV, FLEX, PULLAPPLICABLE DOCUMENTSStandards: EIA Publication 364TEST SAMPLES AND PREPARATION1)All materials were manufactured in accordance with the applicable product specification.2)All test samples were identified and encoded to maintain traceability throughout the test sequences.3)After soldering, the parts to be used for LLCR and DWV/IR testing were cleaned according to TLWI-0001.4)Either an automated cleaning procedure or an ultrasonic cleaning procedure may be used.5)The automated procedure is used with aqueous compatible soldering materials.6)Parts not intended for testing LLCR and DWV/IR are visually inspected and cleaned if necessary.7)Any additional preparation will be noted in the individual test sequences.8)Solder Information: Lead Free9)Re-Flow Time/Temp: See accompanying profile.10)Internal Test PCBs used: PCB-100392-TST-XXOVEN PROFILE (Soldering Parts to Test Boards)ATTRIBUTE DEFINITIONSThe following is a brief, simplified description of attributes.THERMAL:1) EIA-364-17, Temperature Life with or without Electrical Load Test Procedure for Electrical Connectors. 2) Test Condition 4 at 105° C.3) Test Time Condition B for 250 hours.4) Connectors are sometimes mated and all samples are pre-conditioned at ambient.HUMIDITY:1) Reference document: EIA-364-31, Humidity Test Procedure for Electrical Connectors. 2) Test Condition B, 240 Hours.3) Method III, +25° C to + 65° C, 90% to 98% Relative Humidity excluding sub-cycles 7a and 7b. 4) Connectors are sometimes mated and all samples are pre-conditioned at ambient.TEMPERATURE RISE (Current Carrying Capacity, CCC):1) EIA-364-70, Temperature Rise versus Current Test Procedure for Electrical Connectors and Sockets .2) When current passes through a contact, the temperature of the contact increases as a result of I 2R (resistive)heating.3) The number of contacts being investigated plays a significant part in power dissipation and thereforetemperature rise.4) The size of the temperature probe can affect the measured temperature. 5) Copper traces on PC boards will contribute to temperature rise:a. Self heating (resistive)b. Reduction in heat sink capacity affecting the heated contacts6) A de-rating curve, usually 20%, is calculated.7) Calculated de-rated currents at three temperature points are reported:a. Ambientb. 55оCc. 65оCd. 70оC8) Typically, neighboring contacts (in close proximity to maximize heat build up) are energized.9) The thermocouple (or temperature measuring probe) will be positioned at a location to sense the maximumtemperature in the vicinity of the heat generation area.10) A computer program, TR 803.exe , ensures accurate stability for data acquisition.11) Hook-up wire cross section is larger than the cross section of any connector leads/PC board traces, jumpers,etc.12) Hook-up wire length is longer than the minimum specified in the referencing standard.INSULATION RESISTANCE (IR):To determine the resistance of insulation materials to leakage of current through or on the surface of these materials when a DC potential is applied.1)PROCEDURE:a.Reference document: EIA-364-21, Insulation Resistance Test Procedure for Electrical Connectors.b.Test Conditions:i.Between Adjacent Contactsii.Electrification Time 2.0 minutesiii.Test Voltage (500 VDC) corresponds to calibration settings for measuring resistances.2)MEASUREMENTS:3)When the specified test voltage is applied (VDC), the insulation resistance shall not be less than 5000megohms.DIELECTRIC WITHSTANDING VOLTAGE (DWV):To determine if the sockets can operate at its rated voltage and withstand momentary over potentials due to switching, surges, and other similar phenomenon. Separate samples are used to evaluate the effect ofenvironmental stresses so not to influence the readings from arcing that occurs during the measurementprocess.1)PROCEDURE:a.Reference document: EIA-364-20, Withstanding Voltage Test Procedure for Electrical Connectors.b.Test Conditions:i.Between Adjacent Contactsii.Rate of Application 500 V/Seciii.Test Voltage (VAC) until breakdown occurs2)MEASUREMENTS/CALCULATIONSa.The breakdown voltage shall be measured and recorded.b.The dielectric withstanding voltage shall be recorded as 75% of the minimum breakdown voltage.c.The working voltage shall be recorded as one-third (1/3) of the dielectric withstanding voltage (one-fourth of the breakdown voltage).SUPPLEMENTAL TESTSCONNECTOR PULL:1)Secure cable near center and pull on connectora.At 90°, right angle to cableb.At 0°, in-line with cableFig. 1(Typical set-up, actual part not depicted.)0° Connector pull, notice the electrical continuity hook-up wires. CABLE DURABILITY:1)Oscillate and monitor electrical continuity for open circuit indication.a.± 35° Pendulum Mode,bend up to 25,000 cycles with 8 oz. load on cable end.Fig. 2b.± 90° Flex Mode, bend up to 25,000 cycles with 8 oz. load on cable end.Fig. 3(Typical set-up, actual part not depicted.)RESULTSTemperature Rise, CCC at a 20% de-rating•CCC for a 30°C Temperature Rise (1 Cable)-----------0.6 A per contact with 6 adjacent contacts powered •CCC for a 30°C Temperature Rise (2 Cables)---------0.4 A per contact with 6 adjacent contacts powered Insulation Resistance minimums, IR•Initialo Top Cable------------------------------------------50,000 Meg Ω------------------------Passo Bottom Cable------------------------------------100,000 Meg Ω•Thermalo Top Cable-----------------------------------------100,000 Meg Ωo Bottom Cable------------------------------------100,000 Meg Ω•Humidityo Top Cable------------------------------------------50,000 Meg Ωo Bottom Cable------------------------------------100,000 Meg ΩDielectric Withstanding Voltage minimums, DWV•Initialo BreakdownTop Cable-----------------------------------800 VACBottom Cable-----------------------------1,020 VACo DWVTop Cable-----------------------------------600 VACUnmated-------------------------------------765 VACo Working voltageTop Cable-----------------------------------200 VACBottom Cable-------------------------------255 VAC•Thermalo BreakdownTop Cable---------------------------------1,020 VACBottom Cable-----------------------------1,120 VACo DWVTop Cable-----------------------------------765 VACUnmated-------------------------------------840 VACo Working voltageTop Cable-----------------------------------255 VACBottom Cable-------------------------------280 VAC•Humidityo BreakdownTop Cable-----------------------------------940 VACBottom Cable-------------------------------840 VACo DWVTop Cable-----------------------------------705 VACBottom Cable-------------------------------630 VACo Working voltageTop Cable-----------------------------------235 VACBottom Cable-------------------------------210 VACSUPPLEMENTAL TESTINGSupplemental – Connector/Cable Pull•0°-----------------------------------------------------------------------99.18 lbs min•90°---------------------------------------------------------------------57.53 lbs minSupplemental – Cable Bend 25,000 Cycles•±35° Pendulum Mode---------------------------------------------No Electrical Failures•±90°Flex Mode------------------------------------------------------Minimum # of 3,746 Cycles to Failure.DATA SUMMARIES Continued INSULATION RESISTANCE (IR):Initial, Meg Ohms Thermal, Meg Ohms Humidity, Meg OhmsTop Bottom Top Bottom Top BottomInsulation Resistance InsulationResistanceInsulationResistanceInsulationResistanceInsulationResistanceInsulationResistanceAverage 50000 100000 100000 100000 75000 100000 Min 50000 100000 100000 100000 50000 100000 Max 50000 100000 100000 100000 100000 100000DIELECTRIC WITHSTANDING VOLTAGE (DWV):Initial, VAC Top Initial, VAC BottomBreakdownVoltage DWV WorkingVoltageBreakdownVoltage DWVWorkingVoltageAverage 880 660 220 1030 773 258 Min 800 600 200 1020 765 255 Max 960 720 240 1040 780 260Thermal, VAC Top Thermal, VAC BottomBreakdownVoltage DWV WorkingVoltageBreakdownVoltage DWVWorkingVoltageAverage 1070 803 268 1120 840 280 Min 1020 765 255 1120 840 280 Max 1120 840 280 1120 840 280 Humidity, VAC Top Humidity, VAC BottomBreakdownVoltage DWV WorkingVoltageBreakdownVoltage DWVWorkingVoltageAverage 960 720 240 930 698 233 Min 940 705 235 840 630 210 Max 980 735 245 1020 765 255DATA SUMMARIES ContinuedSUPPLEMENTAL – CONNECTOR/CABLE PULL0 Deg. Pull 90 Deg. Pull(Lbs)Force (Lbs) ForceMinimum 99.18 57.53Maximum 164.99 78.44Average 147.5 69.2SUPPLEMENTAL – CABLE BEND 25,000 CYCLESA.35 Deg. PendulumInitial 5000Cycles 10000 Cycles 15000 Cycles 20000 Cycles 25000 Cycles Avg 20.1080 20.0480 20.0100 20.0640 20.0620 20.1120 Min 20.0500 19.9800 19.9300 19.9800 19.9900 20.0400 Max 20.1800 20.1300 20.0900 20.1300 20.1300 20.1800 St. Dev. 0.0545 0.0630 0.0711 0.0627 0.0540 0.0630 Count 5 5 5 5 5 5B.90 Deg. FlexInitial 5000Cycles 10000 Cycles 15000 Cycles 20000 Cycles 25000 Cycles Avg 30.4383 25.0100 20.5950 24.1150 20.8400 #DIV/0!Min 20.1000 20.3500 20.4800 20.6100 20.8400 0.0000 Max 80.9300 36.6100 20.7100 27.6200 20.8400 0.0000 St. Dev. 24.7371 7.7772 0.1626 4.9568 #DIV/0! #DIV/0!Count 6 4 2 2 1 0DATAINSULATION RESISTANCE (IR):Initial, Meg Ohms Thermal, Meg Ohms Humidity, Meg OhmsTop Bottom Top Bottom Top BottomSample# InsulationResistanceInsulationResistanceInsulationResistanceInsulationResistanceInsulationResistanceInsulationResistance1 50000 100000 100000 100000 100000 1000002 50000 100000 100000 100000 50000 100000DIELECTRIC WITHSTANDING VOLTAGE (DWV):Initial, VAC Top Initial, VAC BottomSample# BreakdownVoltage DWVWorkingVoltageBreakdownVoltage DWVWorkingVoltage1 800 600 200 1020 765 2552 960 720 240 1040 780 260Thermal, VAC Top Thermal, VAC BottomSample# BreakdownVoltage DWVWorkingVoltageBreakdownVoltage DWVWorkingVoltage1 1120 840 280 1120 840 2802 1020 765 255 1120 840 280Humidity, VAC Top Humidity, VAC BottomSample# BreakdownVoltage DWVWorkingVoltageBreakdownVoltage DWVWorkingVoltage1 940 705 235 840 630 2102 980 735 245 1020 765 255 SUPPLEMENTAL – CONNECTOR/CABLE PULL0 Deg. Pull 90 Deg. PullSample# Maximum Force (Lbs) MaximumForce(Lbs)1 164.99 74.172 158.30 78.443 156.24 75.934 158.58 57.535 99.18 60.12DATA (Continued)SUPPLEMENTAL – CABLE BEND 25,000 CYCLESA.35 Deg. PendulumCable Resistance,OhmsInitial 5000Cycles 10000 Cycles 15000 Cycles 20000 Cycles 25000 Cycles1 20.05 19.98 19.93 20.02 20.03 20.062 20.18 20.13 20.09 20.13 20.13 20.183 20.14 20.08 20.05 20.11 20.09 20.174 20.11 19.99 19.94 19.98 19.99 20.045 20.06 20.06 20.04 20.08 20.07 20.11B.90 Deg. FlexCable Resistance,OhmsInitial 5000Cycles 10000Cycles 15000Cycles 20000Cycles 25000Cycles1 20.10 20.80 Failed @ 7329Cycles N/A N/A N/A2 20.24 36.61 Failed @ 7590Cycles N/A N/A N/A3 20.29 20.35 20.71 27.62 20.84 Failed @ 22448Cycles4 20.23 22.28 20.48 20.61 Failed @ 18372Cycles5 20.84 Failed @ 3746Cycles N/A N/A N/A N/AEQUIPMENT AND CALIBRATION SCHEDULES Equipment #: THL-02Description: Temperature/Humidity Chart RecorderManufacturer: DicksonModel: THDXSerial #: 00120351Accuracy: Temp: +/- 1C; Humidity: +/-2% RH (0 - 60%) +/- 3% RH (61 - 95%). … Last Cal: 06/16/06, Next Cal: 06/16/07Equipment #: MO-02Description: Multimeter /Data Acquisition SystemManufacturer: KeithleyModel: 2700Serial #: 0780546Accuracy: See Manual… Last Cal: 05/12/06, Next Cal: 05/12/07Equipment #: MO-04Description: Multimeter /Data Acquisition SystemManufacturer: KeithleyModel: 2700Serial #: 0798688Accuracy: See Manual… Last Cal: 01/31/06, Next Cal: 01/31/07Equipment #: PS-01Description: System Power SupplyManufacturer: Hewlett PackardModel: HP 6033ASerial #: (HP) 3329A-07330Accuracy: See Manual… Last Cal: 05/12/06, Next Cal: 05/12/07Equipment #: TC090601-103/105Description: IC Thermocouple-103/105Manufacturer: SamtecModel:Serial #: TC090601-103/105Accuracy: +/- 1 degree C… Last Cal: , Next Cal:Equipment #: HPM-01Description: Hipot MegommeterManufacturer: HipotronicsModel: H306B-ASerial #: M9905004Accuracy: 2 % Full Scale AccuracyEquipment #: OV-03Description: Cascade Tek Forced Air OvenManufacturer: Cascade TekModel: TFO-5Serial #: 0500100Accuracy: Temp. Stability: +/-.1C/C change in ambient Temp. Stability: +/-.1C/C change in ambient … Last Cal: 05/12/06, Next Cal: 05/12/07Equipment #: THC-01Description: Temperature/Humidity ChamberManufacturer: ThermotronModel: SM-8-7800Serial #: 30676Accuracy: See Manual… Last Cal: 8/18/2006, Next Cal: 8/18/2007Equipment #: TCT-03Description: Dillon Quantrol TC2 Test StandManufacturer: Dillon QuantrolModel: TC2Serial #: 02-1033-03Accuracy: Speed Accuracy: +/- 5% of indicated speed; Displacement: +/- 5 micrometers.… Last Cal: 5/12/06, Next Cal: 5/12/07Equipment #: LC-2500N(icell)Description: 2500 N Load Cell for Dillon QuantrolManufacturer: Dillon QuantrolModel: icellSerial #: 01-0132-01Accuracy: .10% of capacity… Last Cal: 6/13/06, Next Cal: 6/13/07Equipment #: HDR - 01Description: HDR Flex TesterManufacturer: Samtec Inc.Model: AT-1440-000Serial #: 00120351Accuracy: N/A… Last Cal: No Calibration Required, Next Cal:…。

Instruction ManualDESCRIPTIONThe Aquasun 2 is an entry level automatic solar controller with temperature adjustment, manual mode and winter mode features. Mode of operation and the temperature limit setting are retained after a power outage.INSTALLATION INSTRUCTIONSCONTROLLER INSTALLATIONFind a suitable location to mount the control box. The controller should be installed out of direct weather and no closer than 3 meters from the water’s edge. Lift up the two mounting tabs and use two appropriate screws to mount the control box to the wall, keeping in mind that the power cable is 1.8m long and should be plugged directly into a general power outlet, not into an extension lead.The solar pump plugs into the 240Vac socket marked as PUMP.The pool sensor must be fitted into the suction line of the pump, as close to the pool as practical, preferably in a position out of direct sunlight. It is recommended that a 14.5mm hole be drilled in the PVC pipe, this can be carried out using a Dontek PD01 grinding drill or a small pilot hole can be drilled and a 14.0mm drill-bit used spinning in a counter clockwise direction to minimize the chance of shattering pipe. Insert the grommet into the pipe and gently push in the blue/grey sensor barb. The blue sensor plug is to be fitted to the plug socket marked POOL. DO NOT cable-tie or tape sensor wires to mains power, In some cases there is some benefit to cable tie 30cm of wire from the sensor to the pipe and insulate this section (some ambient differences can travel up the copper wire and affect the sensor reading). Roof sensors must be fitted into a small piece of solar collector or equivalent and attached to the roof. The best location is within an arm's length of the gutters edge of the house or shed as long as the sensor end is not shaded and is on a roof of similar aspect of the main collector. It must not be fitted on top of the solar collector or fitted to high points on the roof like Ridge Capping as false readings will be detected. Keep in mind that it is of the utmost importance to keep the roof sensor as short as possible as this will assist in the longevity of the sensor and controller in the event of electrical storm activity and power surges. Sensor cables must not be run parallel to power cables and run lengths should be less than 50m. Cable ties should be used to fasten the sensor cable to the cold water inlet pipe making sure that the ties are approximately 10mm from PVC fittings. Cable ties should be tightened only firm, over tightening can cause breaks in the outer PVC if not careful. If the cable is to be run under ground a conduit must be used to protect the wire and there is to be no cable joins within, conduit ends must be sealed to prevent water ingress.Any excess cable should be removed and re-fitted ensuring that the wire ends are tinned with solder. The red sensor plug is to be fitted to the right hand socket marked ROOF.CONTROLLER OPERATION AND SETTINGS TEMPERATURE LIMITTo change the temperature limit that determines when to start or stop the pump simply press (or hold) the UP button to increase the desired temperature limit, the DOWN button will decrease it.If the temperature limit is set below the current pipe temperature then the pump is automatically started for 3 minutes to test the true pool water temperature.The controller will automatically choose to run the pump based on solar gain (i.e. the sun is shining & roof is hot) Once the desired temperature is achieved the pump is stopped and a four hour wait commences to ensure no energy is wasted by unnecessarily starting the pump. If after 4 hours the roof is hot enough then the pump may start to provide a 2nd heating cycle, if not then the “waiting for roof to warm” message will appear. If the poolachieves temperature limit during the 2nd heat cycle then it will start an economy/sleep mode, which will prevent the pump from starting for the rest of the day.MANUAL PUMP MODEHolding the UP button to go above 40°C will toggle the pump from Off to On or vice versa, Manual mode will time out after 30 minutes of being selected, with a default temperature limit of 30°CWINTER MODEHolding the DOWN button to go below 20°C will set the unit into WINTER mode, on selection of winter mode the pump will run for 3 minutes and will repeat this every day at the same time unless the power fails. Should there be an interruption to power then an exception takes place to prevent the pump starting at night, the sensors are tested to check that the roof sensor is 5°C or more above the pipe sensor, if this temperature condition is not met the display will show “waiting for roof to warm”, once the pump starts the controller will wait 24 hours to perform another unconditional flush of the system.SUMMER MODESummer mode is the default mode of operation; if tropical mode has been selected you can change back to summer mode push both buttons and when SUMMER is displayed, released the buttons and use the up or down buttons to set the desired temperature. The controller will automatically heat the pool to this temperature when solar conditions are favourable.TROPICAL MODETo activate tropical mode, push and hold both buttons and when “TROPICAL” is displayed, release the buttons and use the up or down button to set the desired temperature. In tropical mode the controller will attempt to heat the pool, if the pool exceeds the temperature limit while heating then the controller turns off the pump and waits for the roof to cool so the controller can cool the pool down by dissipating the heat on the cold roof (most likely to occur at night). In tropical mode the controller attempts to keep the pool at the temperature limit by either heating or cooling as required.NOTES1.If a sensor fault is detected the controllerwill display which sensor failed (POOL and/or ROOF) and the type of failure.2.After a power outage all configurableitems are retained & the clock (if used) will keep time for up to 14 days.3.The sensor cable with the red trace is thepositive and is usually fitted to the right hand side of the plug when looking at the plug screws, incorrect polarity may be displayed as a short circuit fault.4.If the controller has stopped pumping andis displaying a higher temperature than expected it may be caused by a pump which is failing to prime, check the pump and if necessary prime the pump as per the pump manufacturers’ instructions then reset the controller by turning it off/on.5.Maximum rated output load for the 240Vsocket is 9.98 Amps / 2395 Watts.6.Degree of protection against moisture:IP23WARRANTY – AQUASUN 2This range of product is covered by a limited 2 year warranty against component failure or faulty workmanship from the date of installation.A faulty unit should be returned in the first instance to the dealer from which the unit was purchased.Damage to the unit due to misuse, power surges, lightning strikes or installation that is not in accordance with the manufacturer’s instruction may void the warranty.Warranty does not include on-site labour or travel costs to or from installation site.If the power cord is damaged, do not use the controller; return the unit to the supplier for repair. CUSTOMER RECORD (To be retained by the customer)DEALER/INSTALLER NAMESERIAL NUMBERDATE INSTALLEDFor service assistance phone 1300 130 693.auDontek Electronics Pty LtdPO Box 239, Bayswater VIC 3153 AustraliaPhone:+61397628800Email:****************.au。

1. IntroductionThe transponder reader module TWN4 MultiTech M is a device for reading and writing RFID transponders. There are different versions of TWN4 devices available, which cover a large range of transponder types both in the frequency range of 125kHz and 13.56MHz.2. Getting Started2.1 Cable ConnectionIn order to start operating a TWN4 transponder reader, it simply has to be connected to a host.2.2 EnumerationOnce the device has been powered up, it is waiting for completion of the enumeration by the USB host. As long as the device is not enumerated, it is entering a minimum power consumption mode, where both LEDs are turned off.2.3 InitializationAfter powering up and enumeration, the device is turning on the built-in transponder reader logic. The green LED is turned on permanently. Some transponder readers need some kind of initialization, which is performed inthis step. After successful initialization, the device sounds a short sequence, which consists of a lower tone followed by a higher tone.2.4 Normal OperationAs soon as the device has completed the initialization, it is entering normal operation. During normal operation the device is searching for a transponder continuously.Detection of a TransponderIf a transponder is detected by the reader, following actions are performed ∙Send the ID to the host. By default, the USB device sends by emulating keystrokes of a keyboard.∙Sound a beep∙Turn off the green LED∙Blink the red LED for two seconds∙Turn on the green LEDWithin the two seconds timeout, where the red LED is blinking, the transponder, which just has been recognized will not be accepted again. This prevents the reader from sending identical IDs more than one time to the host.If during the two seconds timeout of the red LED a different transponder is detected, the complete sequence restarts immediately.Suspend ModeThe transponder reader supports the USB suspend mode. If the USB host is signaling suspend via the USB bus, the transponder reader is turning off most of its power consuming peripherals. During this operation mode, no detection of transponders is possible and all LEDs are turned off.Once the host is resuming to normal operation mode, this is also signaled via the USB bus. Therefore, the transponder reader will resume to normal operation, too.3. List of Antennas HF antennaLF antenna4. Compliance statementsFCC(RF module)Compliance statement:This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.Modification of equipment:The instruction manual of the host shall include the following statement: Changes or modifications made to this equipment not expressly approved by the party responsible for compliance may void the FCC authorization to operate this equipment.Information to the user:(The instruction manual of the host shall include the following statement) A compliance statement as applicable, e.g., for devices subject to part 15 of CFR 47 as specified in §15.19(a)(3), that the product complies with the rules; and the identification, by name, address and telephone number or Internet contact information, of the responsible party, as defined in §2.909. The responsible party for Supplier’s Declaration of Conformity must be located within the United States.Host devicesFCC notes for a host subject to verification or SDoC:For a host device assembled with the certified module and subject to 47 CFR Part 15 verification of class A digital devices, the following statements have to be included in the user manual and the host device has to be labelled as noted below. If the host device is subject to other authorization procedures or parts the appropriate requirements of these authorization procedures or parts apply.Important note:OEM integrator is still responsible for the FCC compliance requirements of the end product, which integrates this module. Appropriate measurements (e.g. 15B compliance) and if applicable additional equipment authorization of the host device to be addressed by the integrator/ manufacturerThe end device must be labeled with:Contains FCC ID: WP5TWN4F17Contains IC: 7948A-TWN4F17HVIN: EL20208Example for SDoC:The compliance information statement shall be included in the user's manual or as a separate sheet. In cases where the manual is provided only in a form other than paper, such as on a computer disk or over the Internet, the information required by this section may be included in the manual in that alternative form, provided the user can reasonably be expected to have the capability to access information in that form. The information may be provided electronically as permitted in §2.935.NOTE: The Commission does not have a required SDoC format. This is an example only and is provided to illustrate the type of information that may be supplied with the product at the time of marketing or importation for meeting the FCC SDoC requirement.For class B devices:FCC §15.105 (b):Note: This 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 in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:- Reorient or relocate the receiving antenna.- Increase the separation between the equipment and receiver.- Connect the equipment into an outlet on a circuit different from that to which the Receiver is connected.- Consult the dealer or an experienced radio/TV technician for help.For class A devices:FCC §15.105 (b):NOTE: This equipment has been tested and found to comply with the limits for a Class A 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 energy 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 his own expense.CANADA:This device complies with Industry Canada’s license-exempt RSSs. Operation is subject to the following two conditions:(1) This device may not cause interference; and(2) This device must accept any interference, including interference that may cause undesired operation of the device.Le présent appareil est conforme aux CNR d’Industrie Canada applicables aux appareils radio exempts de l icence. L’exploitation est autorisée aux deux conditions suivantes:1) l’appareil ne doit pas produire de brouillage;2) l’utilisateur de l’appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d’en compr omettre le fonctionnement. Special accessories:Where special accessories such as shielded cables and/or special connectors are required to comply with the emission limits, the instruction manual shall include appropriate instructions on the first page of the text describing the installation of the device.Simultaneous transmission:When the host product supports simultaneous-transmission operations the host manufacturer needs to check if there are additional RF exposure filing requirements due to the simultaneous transmissions. When additionalapplication filing for RF exposure compliance demonstration is not required (e. g. the RF module in combination with all simultaneously operating transmitters complies with the RFexposure simultaneous transmission SAR test exclusion requirements), the host manufacturer may do his own evaluation without any filing, using reasonable engineering judgment and testing for confirming compliance with out-of-band, restricted band, and spurious emission requirements in the simultaneous-transmission operating modes. If additional filing is required please contact the person at ELATEC GmbH responsible for certification of the RF module.5. Service AddressIn case of any technical questions, please contact: Elatec GmbHZeppelinstr. 182178 PuchheimGermanyPhone: +49 (0) 89 5529961 0Fax: +49 (0) 89 5529961 29Email: ********************6. TrademarksAll referenced brands, product names, service names and trademarks mentioned in this document are the property of their respective owners.。

Key features• Tests up to four infusion pumps simultaneously• Compatible with virtually any type of infusion device • Instantaneous and average flow measurement • Occlusion pressure measurements to 45 psi • Single- and dual-flow (piggyback) testing• Full PCA testing (bolus volume, lockout time, and automated external triggering)• Autostart mode enables unit to begin testing only when fluid is detected • On-board graphing of pressure and flow• Built-in memory to save test results for printing or downloading to computer • Hydrograph graphical software to control unit and display results via PC • Automated testing through Fluke Biomedical medTester 5000C (US only)Technical DataIDA 4 Plus Multi-Channel Infusion Device Analyzer maximizes productivity with multiple, independent channels for testing up to four infusion pumps at once.The device measures instantaneous flow, average flow, occlusion pressure, and analyzes patient-control analgesia (PCA) units. An optional PCA trigger box provides automated PCA pump control, allowing technicians to set up tests and walk away.An autostart feature simplifies syringe pump testing or other tests that have long startup times.With built-in memory, the IDA 4 Plus records test results internally and provides easy-to-read test-result graphs right on the analyzer’s screen. The display is so large numbers can be read from across the room.Additionally, the IDA 4 Plus comes withHydrograph PC software for creating full-color graphs and reports. For automated testing, the IDA 4 Plus is compatible with Fluke Biomedical’s medTester 5000C (US only).ElsoPhilipsService,Jilemnického2;91101Trenèín;tel:+421326582410,7431690;fax:+421326582592;email:**************;web:www.fluke.skTechnical specificationsFlow-rate measurementTechnique: Calculated by mea-suring a volume over timeRange: 0.5 ml/hr to 1000 ml/hr Accuracy: 1 % of reading ± 1 LSD for flows of 16 ml/hr to 200 ml/hr for volumes over20 ml; otherwise, 2 % of reading ± 1 LSD after delivery of 10 ml Volume measurementTechnique: Volume measured directly by the transducer in minimum sample sizes of 60 µl Range: 0.06 ml to 9999 ml Accuracy: 1 % of reading ± 1 LSD for flows of 16 ml/hr to 200 ml/hr for volumes over20 ml; otherwise, 2 % of reading ± 1 LSD after delivery of 10 ml PCA bolus measurementTechnique: Volume is measured directly by the transducer in minimum bolus volumes of 0.5 ml. The measurement is made with a continuous rate between 0 ml/hr and 30 ml/hr. The bolus flow rate should be at least four times the basal flow rate for reliable detection of boluses.Minimum bolus volume: 0.5 ml Accuracy: See volume measurementPressure measurementTechnique: Direct occlusion of the infusion line and measure-ment of pressure prior to the glass transducerRange: 0 psi to 45 psi and equivalents in mmHg and kPa Accuracy: 1 % of full scale ± 1 LSDBack pressure: -100 mmHg to 300 mmHgElectrical specificationsSupply voltage: Autoswitching90 V ac to 260 V acSupply frequency: 50 Hz to 60 HzSupply power: < 30 VAFuse: 20 mm 250 V, 1 A (T) (slow blow)Earth leakage current: < 1 mA in single fault condition Environmental conditionsOperating temperature: 15 ˚C to 30 ˚C (59 ˚F to 86 ˚F)2 Fluke Biomedical IDA 4 Plus Multi-Channel Infusion Device AnalyzerStorage temperature: 0 ˚C to 40 ˚C (32 ˚F to 104 ˚F) at 85 % RH or less for storage [Do not leave for more than 48 hours at -20 ˚C (-4 ˚F)]General informationDimensions (WxDxH): 19.05 cm x 18.11 cm x 30.18 cm (7.5 in x 7.2 in x 11.9 in)Weight: 5 kg (11 lb)“demand” signals. With the IDA 4 Plusconnected to the Trigger Box, it will measure,display, and record essential PCA pumpparameters to show bolus and flow characteristics.The PCA Trigger Box can also be used to test the “nurse call” interface of PCA Pumps. Simulate “nurse calls” and look for the response indicated by makers in the flow graph.HydroGraph™Graphics SoftwareUse the moving colorvisual advantage ofHydroGraph to troubleshootup to four infusion pumpsat once. Data is takendirectly off the transducerand transmitted to HygroGraph.The flowing graphs provide anelectronic means to display, store, and recall flow patterns for comparison at a later date. Each test window can display instantaneous and average flow rates, cumulative, and bolus volumes; and occlusion pressure.IDA 4 Plus Multi-Channel Infusion Device Analyzer Fluke Biomedical 3Ordering informationModelsIDA 4 Plus One-Channel Infusion Device Analyzer 2250063 IDA-4P/1-US120V (US)2394575 IDA-4P/1-AUS250V(Australia)2394582 IDA-4P/1-DEN250V(Denmark)2394594 IDA-4P1-SHK250V (Shuko)2394608 IDA-4P/1-ISR250V (Israel)2394613 IDA-4P/1-ITAL250V (Italy)2394624 IDA-4P/1-IND250V (India)2394636 IDA-4P/1-SWZ250V(Switzerland)2394649 IDA-4P/1-UK250V (UK) IDA 4 Plus Two-Channel Infusion Device AnalyzerFull testing for up to two infusion pumps simultaneously2250088IDA-4P/2-US120V (US)2394651IDA-4P/2-AUS250V(Australia)2394660IDA-4P/2-DEN250V(Denmark)2394672IDA-4P/2-SHK250V (Shuko)2394685IDA-4P/2-ISR250V (Israel)2394697IDA-4P/2-ITAL250V (Italy)2394703IDA-4P/2-IND250V (India)2394715IDA-4P/2-SWZ250V(Switzerland)2394726IDA-4P/2-UK250V (UK)IDA 4 Plus Three-ChannelInfusion Device AnalyzerFull testing capability for up to threeinfusion pumps simultaneously2250109IDA-4P/3-US120V (US)2394732IDA-4P/3-AUS250V(Australia)2394744IDA-4P/3-DEN250V(Denmark)2394759IDA-4P/3-SHK250V (Shuko)2394767IDA-4P/3-ISR250V (Israel)2394771IDA-4P/3-ITAL250V (Italy)2394780IDA-4P/3-IND250V (India)2394798IDA-4P/3-SWZ250V(Switzerland)2394800IDA-4P/3-UK250V (UK)IDA 4 Plus Four-ChannelInfusion Device AnalyzerFull testing capability for up to fourinfusion pumps simultaneously2250127IDA-4P/4-US120V (US)2394817IDA-4P/4-AUS250V(Australia)2394821IDA-4P/4-DEN250V(Denmark)2394839IDA-4P/4-SHK250V (Shuko)2394842IDA-4P/4-ISR250V (Israel)2394856IDA-4P/4-ITAL250V (Italy)2394863IDA-4P/4-IND250V (India)2394874IDA-4P/4-SWZ250V(Switzerland)2394888IDA-4P/4-UK250V (UK)Standard accessories2213506Electronic User Manual andHydroGraph Software2238626Serial Communication Cable221723120 ml priming syringe2391750Luerlock-3 way (one foreach channel)2238909 5 foot plastic drain lineXXXXXXX Power cord (countryspecific)Optional accessories2245061 External Mini-Keyboard,83-Key with PS/2Connector and AT Adapter2238072 Parallel Printer Cable(D25M-36M)2209703 PCA Trigger/Nurse Call Box2248899 Printer, Seiko DPU-414-30B(120 V power supply)(additional purchaserequired: Parallel PrinterCable, p/n 2238072)2399531 Printer, Seiko DPU-414-30B(220 V power supply)(additional purchaserequired: Parallel PrinterCable, p/n 2238072)2235375 Printer (120 V powersupply)2235382 Printer (220 V powersupply)2200102 Interface Cable, medTesterto IDA 4 Plus (withoutwedge adapter) (RS-232;female DB25 to female DB9)2201042 Interface Cable, medTesterto IDA 4 Plus (with wedgeadapter) (RS-232; femaleDB9 to female DB25)2245092 Barcode Scanner (withlong-reach coil cable withY connector for keyboardattachment)2238626 Null Modem Cable (femaleDB9 to female DB9)Fluke Biomedical.Better products. More choices. One company.Fluke Biomedical 6045 Cochran RoadCleveland, OH 44139-3303 U.S.A.Fluke Biomedical Europe Science Park Eindhoven 5110, 5692EC Son, The NetherlandsFor more information, contact us:In the U.S.A. (800) 850-4608 or Fax (440) 349-2307In Europe/M-East/Africa +31 40 267 5200 or Fax +31 40 267 5436From other countries +1 (440) 248-9300 or Fax +1 (440) 349-2307Email:*************************Web access: ©2006-2008 Fluke Biomedical. Specifications subject to change without notice. All OEM trademarks are implied. Printed in U.S.A. 3/2008 2804429 D-EN-N Rev Briešenia na presné meranie™Elso Philips Service; tel: +421 32 6582410email: ************; web: www.elso.sk。

ibatis学习笔记(一)>>>>>>>sqlMapConfig.xml文件详解1.sqlMapConfig.xml配置文件详解：Xml代码1.<?xml version="1.0"encoding="UTF-8"?>2.<! DOCTYPE sqlMapConfig3.P UBLIC "-////DTD SQL Map Config 2.0//EN"4."/dtd/sql-map-config-2.dtd" >5.<sqlMapConfig>6.<settings7.cacheModelsEnabled ="true" <!--是否启用缓存机制-- >zyLoadingEnabled="true"<!-- 是否启用延迟加载机制 -->9.enhancementEnabled="true"<!-- 是否启用字节码增强机制 -->10.errorTracingEnabled="true"<!-- 是否启用错误处理机制 -->11.maxRequests="32"<!-- 最大并发请求数 -->12.maxSessions="10"<!-- 最大Session数 -->13.maxTransactions="5"<!-- 最大并发事务数 -->eStatementNamespaces="true"/><!-- 是否启用名称空间 -->15.<transactionManager type ="JDBC"><!-- 定义了ibatis的事务管理器有3中（JDBC,JTA,EXTERNAL） -->16.<dataSource type ="SIMPLE"><!-- type属性指定了数据源的链接类型，也有3种类型(SIMPLE,DBCP,JNDI) -->17.<property name ="JDBC.Driver"value ="com.mysql.jdbc.Driver"/>18.<property name ="JDBC.ConnectionURL"value ="jdbc:mysql://localhost/test"/>19.<property name ="ername"value ="root"/>20.<property name ="JDBC.Password"value ="wyq"/>21.<property name ="Pool.MaximumActiveConnections"value ="10"/><!-- 连接池维持的最大容量 -->22.<property name ="Pool.MaximumIdleConnections"value ="5"/><!-- 连接池允许挂起的最大连接 -->23.<property name ="Pool.MaximumCheckoutTime"value ="120000"/><!-- 连接被某个任务所允许占用的最大时间 -->24.<property name ="TimeToWait"value ="500"/><!-- 线程允许等待的最大时间 -->25.26.</dataSource>27.</transactionManager>28.<sqlMap resource ="com/wyq/map/userMap.xml"/>29.</sqlMapConfig>一transactionManager节点transactionManagerab 定义了ibatis的事务管理器,目前提供了以下几种选择:1) JDBC通过传统JDBC mit/rollback实现事务支持.2) JTA使用容器提供的JTA服务实现全局事务管理.3) EXTERNAL外部事务管理,如在EJB中使用ibatis,通过EJB的部署配置即可实现自动的事务管理机制.此时ibatis将把所有事务委托给外部容器进行管理.此外,通过Spring等轻量级容量实现事务的配置化管理也是一个不错的选择.二dataSource 节点dataSource 从属于transactionManager, 用于设定ibatis运行期使用DataSource属性.type 属性: dataSource 元素的type 属性指定了dataSource 的实现类型.可选项目:1) SIMPLE:SIMPLE 是ibatis 内置的dataSource 实现,其中实现了一个简单的数据库连接池机制,对应ibatis 实现类为com.ibatis.sqlmap.engine.datasource.SimpleDataSourceFactory.JDBC 使用数据库自己的事务（局部事务），connect.beginTranstion(), mit()等.2) DBCP基于Apache DBCP连接池组件实现的DataSource封装,当无容器提供DataSource服务时,建议使用该选项,对应ibatis实现类为com.ibatis.sqlmap.engine.datasource.DbcpDataSourceFactory.JTA ：使用jta 事务管理器管理事务（全局事务），使用userTranstion对象.3) JNDI使用J2EE容器提供的DataSource实现, DataSource将通过指定的JNDI Name从容器中获取.对应ibatis实现类为com.ibatis.sqlmap.engine.datasource.JndiDataSourceFactory.Ibatis 不控制事务，事务交由外部控制，一般在CTM,或spring托管事务中使用.JNDI的配置大部分都在应用服务器中进行，所以在ibatis中的配置相对简单(1)jdbc事务控制的JNDI配置Xml代码1.<transctionManager type ="JDBC">2.<dataSource type ="JNDI">3.<property name ="DataSource"value ="java:comp/env/jdbc/myDataSource"/>4.</dataSource>5.</transctionManager>(2)JTA事务控制的JNDI配置Xml代码1.<transctionManager type ="JTA">2.<property name ="UserTransaction"value ="java:/ctx/con/UserTransaction"/>3.<dataSource type ="JNDI">4.<property name ="DataSource"value ="java:comp/env/jdbc/myDataSource"/>5.</dataSource>6.</transctionManager>sqmMap节点指定了映射文件的位置，配置文件中可以定义多个sqlMap元素,以指定项目内所包含的所有映射文件.ibatis学习笔记(二)>>>>>>>sqlMapConfig.xml文件详解ibatis基础代码包括：1．ibatis实例配置一个典型的配置文件如下（具体配置项目的含义见后）：<? xml version="1.0" encoding="UTF-8" ?><! DOCTYPE sqlMapConfigPUBLIC "-////DTD SQL Map Config 2.0/"[url]/dtd/[/url]sql-map-config-2.dt<sqlMapConfig >< settingscacheModelsEnabled ="true"enhancementEnabled ="true"lazyLoadingEnabled ="true"errorTracingEnabled ="true"maxRequests ="32"maxSessions ="10"maxTransactions ="5"useStatementNamespaces ="false"/>< transactionManager type ="JDBC" >< dataSource type ="SIMPLE" >< property name ="JDBC.Driver" value ="com.p6spy.engine.spy.P6SpyDriver" />< property name ="JDBC.ConnectionURL" value="jdbc:mysql://localhost/sample" />< property name ="ername" value ="user" />< property name ="JDBC.Password" value ="mypass" />< property name ="Pool.MaximumActiveConnections" value ="10" />< property name ="Pool.MaximumIdleConnections" value ="5" />< property name ="Pool.MaximumCheckoutTime" value ="120000" />< property name ="Pool.TimeToWait" value ="500" />< property name ="Pool.PingQuery" value ="select 1 from ACCOUNT" />< property name ="Pool.PingEnabled" value ="false" />< property name ="Pool.PingConnectionsOlderThan" value ="1" />< property name ="Pool.PingConnectionsNotUsedFor" value ="1" /></ dataSource ></ transactionManager >< sqlMap resource ="com/ibatis/sample/User.xml" /></ sqlMapConfig >⑴Settings 节点cacheModelsEnabled是否启用SqlMapClient上的缓存机制。

在短短 2 分钟内即可完成 PCIe 链路运行状况评估率先上市的 PCIe 测试工具，与众不同泰克 TMT4 容限测试仪是同类产品中首款专业级 PCIe 测试工具，可快速轻松地评估 PCIe Gen 3 (8 GT/s) 和 Gen 4 (16 Gt/s) 设备的链路运行状况。

它支持 CEM 、M.2、U.2 和 U.3 等最常见的 PCIe 形状因数，能够与当今可用的大多数 PCIe 设备进行连接。

借助支持 PCIe 的 16 通道高密度线缆和连接器，该容限测试仪可在数秒内经过适配后测试系统板或扩展卡。

在短短 2 分钟内即可完成 PCIe Gen 3 和 Gen 4 设备的发射器和接收器链路运行状况的评估。

它确实独树一帜。

TMT4 容限测试仪重构了 PCIe 链路运行状况的测试方式。

作为被测设备 (DUT) 的有源链路助手，该仪器能够直接控制DUT 的预设和链路训练参数，从而可逐个通道或逐个预设深入了解潜在的设计缺陷。

评估 PCIe Gen 3 和 Gen 4 设备的链路运行状况从未如此简单。

是时候深入了解并轻松使用泰克的前沿创新技术TMT4 容限测试仪专为现代工程师而设计。

如今，过长的测试时间和复杂的设备设置通常会导致设计和验证工程师遇到测试瓶颈。

TMT4 在设计时充分考虑了这两个挑战，并对测试时间和易用性给出了相应的解决方案。

TMT4 在短短 5 分钟内即可完成设置并准备好测试，而优化的用户界面使测试变得比以往更轻松。

借助这些改进，泰克在评估 PCIe Gen 3 和 Gen 4 设备的链路运行状况方面充分响应了现代工程师的需求。

主要功能•支持的 PCIe Gen 3 (8 GT/s) 和 Gen 4 (16 Gt/s) 速度•支持多达 16 条通道的链路带宽•支持 CEM 、M.2、U.2 和 U.3 设备•两种扫描选项：快速扫描和自定义扫描•为每个测试的通道提供 DUT 发射器 (Tx) 眼图和链路训练参数•为每个测试的通道提供 DUT 功能接收器 (Rx) 评估适合多种 PCIe 设备的适配器和线缆TMT4 容限测试仪平台支持 11 种标准 PCIe 适配器，可用于测试系统板和扩展卡。

NOTICE D'UTILISATIONLeak finder®Modèle n° WV604Machine à vapeur Diagnostic Smoke®avec solution chromogène UltraTraceUV®Système de détection de fuites pour techniciens professionnelsBrevets déposés États-Unis | Canada ●6,392,227 • 6,439,031 • 6,526,808 | 2,279,147 • 2,394,911 | Brevetsinternationaux en instanceConseils de sécurité et d'utilisationTable des matièresAccessoires inclus Mise en service initiale Guide de démarrage rapideAutres exemples de fuitesCaractéristiques techniquesGuide de dépannageGarantie 123 – 5 6 – 7 8910Merci et félicitations ! Votre Leak finder®, qui intègre la technologie Diagnostic Smoke®, est le moyen le plus simple et le plus rapide de détecter de nombreuses fuites dans le système du véhicule. Les détecteurs de fuites génératrices de fumées utilisant cette technologie STAR sont les seuls détecteurs de fuite au monde approuvés par les équipementiers (OEM).La technologie brevetée à l'intérieur de votre Leak finder®, y compris la solution de production de vapeur (UltraTraceUV®), a été conçue en collaboration avec les principaux équipementiers afin d'établir un standard pour la détection des fuites. Elle est conçue pour être sans danger pour les systèmes de véhicules et n'annule pas les garanties d'usine.Elle est également la seule technologie de fumée au monde qui réponde aux recommandations des normes de sécurité de SAE INTERNATIONAL Published Papers d'utiliser une machine à fumée conçue pour fonctionner avec un gaz inerte (tel qu'azote, argon ou CO2) ) lors du test d'un système de recyclage des vapeurs de carburant (EVAP) [SAE : 2007-01-1235 & 2008-01-0554].Accessoires inclusUltraTraceUV ® : (WV0712UV) Cette solution brevetée est l'unique solution de productionde vapeur au monde à être approuvée par les constructeurs automobiles. La composition chimique de la solution est spécialement formulée pour résister aux températures de vaporisation, et elle est conçue de manière à ne pas endommager les composants des véhicules et contient une teinture spéciale qui se dépose à l'emplacement exact de la fuite. Ne nuit pas aux systèmes des véhicules et chaque bouteille permet de réaliser300 essais environ. (355 ml / 12 oz). (La référence concerne une bouteille, deux bouteilles sont incluses avec le testeur).Torche combinée : (WVA-065) lumière blanche pour une localisation plus facile de la fumée, et lumière ultraviolette (UV) pour souligner la teinture fluorescente déposée à l'endroit exact de la fuite. Est également munie d'un pointeur laser.Adaptateur de port d’entretien de taille standard : (WVA-06) se connecte au portd’entretien d'usine sur de nombreux véhicules OBD -II.Outil de dépose / d'installation de Schrader : (WVA-049) convient aux deux tailles devannes Schrader dans des véhicules avec raccords de port d’entretien d'usine OBD -II.Kit de capuchons-plongeurs : (WVA-02) utilisé pour l'étanchéité des systèmes pendant les essais de fuite.Diffuseur de fumée : (WVA-03) localise les fuites des joints autour des portes, des fenêtres, des toits ouvrants et du coffre.Cône adaptateur (standard) : (WVA-01) pour l'introduction de fumée dans le systèmed'échappement ou le système d'admission. Le cône mesure 25,4 mm x 89 mm, et est long de 152 mm (1” x 3,5” x 6”).Cône adaptateur : (WVA-067) Le cône mesure 89 mm x 152 mm et est long de 144 mm (3,5” x 6” x 4,5”).Raccord d'air : Deux sont fournis. Le raccord de type automobile est déjà installé sur letesteur. Le raccord de secours est un montage industriel, mais également très répandu dans les systèmes automobiles.Voir davantage d'accessoires disponibles sur le site Internet : Mise en service initiale1.2.REMARQUE : Votre Leak finder ® est maintenant prêt à l'emploi.Bas (Low)Plein (Full)> S'il n'est pas fourni ; installez un raccord d'air adéquat sur le Leak finder ®.> Verser le contenu entier d'une bouteille de 341 ml (12 oz.) de solution UltraTraceUV® dans la chambre de fumée.REMARQUE : Utilisez la deuxième bouteille fournie pour maintenir régulièrement le niveau au repère FULL ou à proximité.Guide de démarrage rapide Effectuez l'une des opérations suivantes :1.Ou 1.Ou 1.Raccorder à l'air ambiant de l'atelier dansle cas d'essais d'étanchéité courants.Raccorder à de l'azote ou à un autre gazinerte pour tester un système de recyclagedes vapeurs de carburant (EVAP).Pack de gaz inerteAccessoire en option ; Kit pour gaz inerte (WVA-060). Effectue environ 50 essais EVAP s'il estrempli de CO2liquide.2.3.> La lumière verte <ON> s'allume. > Une lumière verte clignotante indique que labatterie est faible.> Connectez la pince rouge à la borne 12 Vcc. > Connectez la pince noire à la terre du châssis. > Utilisez le cône pour accéder au système d'admission et connectez le flexible d'alimentationde fumée au cône.4.5.> Utilisez la lumière blanche pour repérer la fumée. > Utiliser la lampe à UV et les lunettes jaunes pour repérer la teinture.> Appuyez sur le bouton START.> Les lumières verte et rouge sont allumées en position <ON>. > Minuterie 5 minutes .Autres exemples de fuitesVotre Leak finder® peut être utilisé dans pratiquement tout système automobile à basse pression suspecté d'avoir une fuite, comme : aspiration / admission, intercooler et turbocompresseur, vide, échappement, EVAP ainsi que les passages d'air et fuites d'eau. Peut également être utilisé pour vérifier les fonctions pneumatiques et tester les composants avant l'assemblage.ÉchappementDépôt de teinture fluorescenteLe système de fumée breveté UltraTraceUV® contient une teinture fluorescente spécifique activée au contact d'un faisceau de lumière ultraviolette qui se dépose à l'endroit exact de la fuite. Utilisez le faisceau de lumière ultraviolette pour mettre en évidence le colorant.> Plus la fumée s'échappe longtemps par une fuite, plus la quantité de teinture déposée au niveau du point de fuite est importante.> Cette technologie a été développée de manière à ce que la teinture se dépose uniquement lorsqu'il y a une différence de pression. Ainsi, par exemple : la teinture se déposera en présence d'une fuite mais ne se déposera pas lors du test de passage d'air ou de fuite d'eau.Passages d'air et fuites d'eau1. P l a c e z l a c o m m a n d e d e c l i m a t i s a t i o n s u r « A i r f r a i s » (s a n s r e c i r c u l a t i o n ). R ég l e z l a s o u f f l e u s e s u r l a v i t e s s e m a x i m a l e .> U n e p r e s s i o n p o s i t i v e s 'ét a b l i t a i n s i d a n s l 'h a b i t a c l e .2. C o n n e c t e z l a b u s e d u t u y a u d 'a l i m e n t a t i o n a u d i f f u s e u r d e f u m ée .3. D ép o s e z u n v o i l e d e f u m ée l e l o n g d e s j o i n t s .4. R e c h e r c h e z d 'év e n t u e l l e s t u r b u l e n c e s d a n s l a f u m ée i n d i c a t r i c e d e f u i t e .Une absence de turbulences indique qu'iln'y a « Pas de fuite » >< Des turbulences dans la fumée signalentune fuiteCaractéristiques techniquesREMARQUE :Il nous a souvent été demandé s'il est possible d'utiliser une huile minérale générique de base, telle que « l'huile de bébé », dans le Leak finder® pour produire la vapeur de fumée.Votre Leak finder®créera la vapeur de la fumée avec de l'huile pour bébé, mais nous ne le recommandons pas. La solution à fumée UltraTraceUV® brevetée fournie avec votre Leak finder® ; permet d'effectuer des centaines de tests (elle est très économique à l'usage) ; est l'unique solution au monde à être approuvée par les équipementiers, sans annuler aucune des garanties d'usine applicables au véhicule. Vous bénéficiez en outre de l'avantage du colorant traceur qui marque l'endroit exact de la fuite, ce qui accroît la précision du diagnostic. La solution UltraTraceUV® n'est pas une huile minérale « générique ». En fait, les huiles minérales génériques ne sont pas conçues pour ce type d'usage industriel. Les huiles minérales génériques se décomposent, ce qui est reconnaissable à leur odeur nauséabonde, et elles risquent alors d'endommager les composants des véhicules et d'annuler la garantie du constructeur.Guide de dépannageDeux voyants sur le panneau de contrôle servent de voyants de diagnostic.* En cas de défaillance de la carte de circuit, déconnectez d'abord l'alimentation électrique de votre testeur pendant 10 secondes puis reconnectez-la. Si le code d'anomalie apparaît une seconde fois, déconnectez le testeur et contactez le revendeur autorisé.Garantie | Assistance techniquePour l'Assistance technique :1-888-822-8832 (Opt. #2)lun.-mar. 8h00 à 15h00 (heure normale du Pacifique) ou***********************Activation de votre garantie :Pour activer la garantie de votre Leak finder® : envoyez, dans un délai de 30 jours suivant votre achat, les informations ci-dessous à l'adresse d'e-mail ou au numéro de télécopie fournis.Envoyezlesinformationsci-dessousà:***********************ou faxez-les : 714-433-2840Nom de l'acheteur :Nom de la compagnie :Adresse :Pays :Numéro de téléphone :Adresse e-mail :Site Internet :Modèle de machine à fumée :Numéro de série :Date d'achat (veuillez conserver votre facture pour une éventuelle vérification) :。

MILITARY AND COMMERCIAL TEMPERATURE RANGESOCTOBER 1995The IDT logo is a registered trademark of Integrated Device Technology, Inc.IDT49FCT805TIDT49FCT806T•0.5 MICRON CMOS Technology•Guaranteed low skew < 500ps (max.)•Very low duty cycle distortion < 600ps (max.)•Low CMOS power levels•TTL compatible inputs and outputs •TTL level output voltage swings •High drive: -32mA I OH , 48mA I OL•Two independent output banks with 3-state control •1:5 fanout per bank•‘Heartbeat’ monitor output•ESD > 2000V per MIL-STD-883, Method 3015;> 200V using machine model (C = 200pF, R = 0)•Available in DIP, SOIC, SSOP, QSOP, Cerpack and LCC packagesAIN AIN BOE BOA 1-OA 5OB 1-OB 5MON2920 drw 01DESCRIPTION:The IDT49FCT805BT/CT and IDT49FCT806BT/CT are clock drivers built using advanced dual metal CMOS technol-ogy. The IDT49FCT805BT/CT is a non-inverting clock driver and the IDT49FCT806BT/CT is an inverting clock driver. Each device consists of two banks of drivers. Each bank drives five output buffers from a standard TTL compatible input. The 805BT/CT and 806BT/CT have extremely low output skew,pulse skew, and package skew. The devices has a "heart-beat" monitor for diagnostics and PLL driving. The MON output is identical to all other outputs and complies with the output specifications in this document. The 805BT/CT and 806BT/CT offer low capacitance inputs with hysteresis.FUNCTIONAL BLOCK DIAGRAMSAIN AIN BOE B-OA 5152920 drw 02PIN CONFIGURATIONSIDT49FCT806TLCC TOP VIEWOB 2OB 3GND OB 4OB 52920 drw 04O E I N I N O E M O 21C1FUNCTION TABLE (1)OB 1OA 1OA 3GND OA 4OA 5OA 2A IN AOB 2OB 3GND OB 4MON IN BOB 5OE B V CC DIP/SOIC/SSOP/QSOP/CERPACKTOP VIEW V CC 2920 drw 03GND 1GND GND IN A23GND 4IN B5B V CC DIP/SOIC/SSOP/QSOP/CERPACKTOP VIEW V CC 2920 drw 051OA 3245OE A LCC TOP VIEW2920 drw 06O E AI N AI N BO E B M O N2920 tbl 021. H = HIGH, L = LOW, Z = High Impedance(1)1. This parameter is measured at characterization but not tested.1.Stresses greater than those listed under ABSOLUTE MAXIMUM RAT-INGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other condi-tions above those indicated in the operational sections of this specifica-tion is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. No terminal voltage may exceed V CC by +0.5V unless otherwise noted.2.Input and V CC terminals.3.Output and I/O terminals.NOTES:1.For conditions shown as Max. or Min., use appropriate value specified under Electrical Characteristics for the applicable device type.2.Typical values are at Vcc = 5.0V, +25°C ambient.3.Not more than one output should be tested at one time. Duration of the test should not exceed one second.4.Duration of the condition can not exceed one second.5.The test limit for this parameter is ± 5µA at T A = –55°C.DC ELECTRICAL CHARACTERISTICS OVER OPERATING RANGEFollowing Conditions Apply Unless Otherwise Specified1.For conditions shown as Max. or Min., use appropriate value specified under Electrical Characteristics for the applicable device type.2.Typical values are at V CC = 5.0V, +25°C ambient.3.Per TTL driven input; (V IN = 3.4V); all other inputs at V CC or GND.4.This parameter is not directly testable, but is derived for use in Total Power Supply Calculations.5.Values for these conditions are examples of the I CC formula. These limits are guaranteed but not tested.6.I C = I QUIESCENT + I INPUTS + I DYNAMICI C = I CC + ∆I CC D H N T + I CCD (f O N O)I CC = Quiescent Current (I CCL, I CCH and I CCZ)∆I CC = Power Supply Current for a TTL High Input (V IN = 3.4V)D H = Duty Cycle for TTL Inputs HighN T = Number of TTL Inputs at D HI CCD = Dynamic Current Caused by an Input Transition Pair (HLH or LHL)f O= Output FrequencyN O= Number of Outputs at f OAll currents are in milliamps and all frequencies are in megahertz.(3,4)NOTES:1.See test circuits and waveforms.2.Minimum limits are guaranteed but not tested on Propagation Delays.3.t PLH, t PHL, t SK(t) are production tested. All other parameters guaranteed but not production tested.4.Propagation delay range indicated by Min. and Max. limit is due to V CC, operating temperature and process parameters. These propagation delaylimits do not imply skew.TEST CIRCUITS AND WAVEFORMS TEST CIRCUIT FOR ALL OUTPUTSENABLE AND DISABLE TIMEDEFINITIONS:C L =Load capacitance: includes jig and probe capacitance.R T =Termination resistance: should be equal to Z OUT of the PulseGenerator.2920 lnk 087.0VOUTPUT 1OUTPUT 23V 0V V OH 1.5V 1.5V OL V OH 1.5V OLINPUTt SK(o) = |t PLH2 - t PLH1| or |t PHL2 - t PHL1|3V 1.5V 0V 3.5V0VV OLV OHENABLEDISABLE3V 0V V OH V OL1.5V1.5V3V 0VOH 1.5V 1.5V OL OH 1.5V V OLt SK(t) = |t PLH2 - t PLH1| or |t PHL2 - t PHL1|3V 0VV OH 1.5V 1.5V V OLt SK(p) = |t PHL - t PLH |PULSE SKEW - t SK (p)PACKAGE SKEW - t SK (t)PACKAGE DELAYOUTPUT SKEW- t SK (o)Package 1 and Package 2 are same device type and speed gradeENABLE AND DISABLE TIMES2920 drw 082920 drw 102920 drw 092920 drw 112920 drw 12NOTES:1.Diagram shown for input Control Enable-LOW and input Control Disable-HIGH2.Pulse Generator for All Pulses: f ≤ 1.0MHz; t F ≤ 2.5ns; t R ≤ 2.5nsORDERING INFORMATIONXXXDevice TypeXX XBlank BPDELSO PYQ805BT 806BT 805CT 806CT Commercial (0°C to +70°C)MIL-STD-883, Class B (–55°C to +125°C)Plastic DIPCERDIPCERPACKLeadless Chip CarrierSmall Outline ICShrink Small Outline ICQuarter-size Small Outline PackageNon-Inverting Buffer/Clock DriverInverting Buffer/Clock Driver2920 drw 13 IDT49FCT。

ErrataTitle & Document Type: 4925B Bit Error Rate Test Set and Accessories Operating and Service ManualManual Part Number: 04925-90033Revision Date: April 1986About this ManualWe’ve added this manual to the Agilent website in an effort to help you support your product. This manual provides the best information we could find. It may be incompleteor contain dated information, and the scan quality may not be ideal. If we find a bettercopy in the future, we will add it to the Agilent website.HP References in this ManualThis manual may contain references to HP or Hewlett-Packard. Please note that Hewlett- Packard's former test and measurement, life sciences, and chemical analysisbusinesses are now part of Agilent Technologies. The HP XXXX referred to in this document is now the Agilent XXXX. For example, model number HP8648A is now model number Agilent 8648A. We have made no changes to this manual copy.Support for Your ProductAgilent no longer sells or supports this product. You will find any other availableproduct information on the Agilent Test & Measurement website:Search for the model number of this product, and the resulting product page will guideyou to any available information. Our service centers may be able to perform calibrationif no repair parts are needed, but no other support from Agilent is available.。