Thermal Shock Chambers (TSA Series)
Contents
1. 1 User s manual sise 1 DIMENSIONS TSA 72EL 72ES 560 460 1900 880 TSA 202EL 202ES 235 820 495 650 560 460 1900 880 Unit mm 1470 370 550 135 1770 670 850 14 OPTIONS Defrost free operation For two zone tests enables continuous tests without requiring defrosting for up to 500 hours max ESPEC has developed a unique structure patent 3514735 that prevents the penetration of outside air and uses recirculated air during testing to stop frosting on the low temperature side This enables continuous tests up to 500 hours so around 20 defrost cycles during this period can be eliminated This option can reduce both the test time in the amount of the defrosting time approx 60 minutes each time and the power consumption required for defrosting 13 6 kWh each time The TSA 42EL A 72EL A and 102EL A have a 300 mm protrusion on the top 15 9 1000 cycles 500 hour test time comparison example Test start c Lo S D a o 0p D o D Q 24h 24h c Q O 0 t o a Test conditions Two zone High temp exposure 150 C 15 min Low temp exposure 65 C 15 min EH Type 1000 cycles Defrost 20 times Defrost 1h Defrost 1h E Defrost 1h 24h 24h Test time 20 hour reduction2. Defrost 1 hour x 20 times Power consumption amount 272 kWh reduction 1000 cycles Power consumed amount to defrost once 13 6 kWh Power consumed amount to defrost 20 times 272 kWh No test halt Cooling water temp 25 C Specimen No specimen Outside conditions 23 C 60 rh TSA TSA TSA EL ae Haies EL fas Pes MIU Maximum Number of 1000 cycles cycles Maximum 500 cycles Maximum 500 hour Maximum 500 hour High temp o exposure 125 C 30 min ee time i Low temp 3 exposure 40 C 30 min ss ed time Outside N T Cooling a water temp uu Power supply Rated voltage voltage Sensor Downstream of specimen 1 5 kg 5 0 kg Plastic molded 5 0 kg 10 0 kg Plastic molded Cst0kg Plastic molded ICs 3 5 kg Plastic molded ICs 7 kg ICs 3 5 kg Specimen Specimen basket Specimen basket Specimen basket shelf shelf brackets 1 5 kg shelf brackets 3 kg basket shelf brackets 0 5 kg brackets 1 5 kg Temp PP oe Within TM Within Within recovery 15 min Within 5 min domi EPIRI time OPTIONS Specimen temperature control A sensor is attached to the specimen to control 9 Measurement example TSA 72ES A the chamber based on the specimen temperature BM TT The specimen temperature reaches and maintains the temperature setting as fast and accurately as possible Cannot be combined with Eco operation mode e o Number of measuring points Location Chamber front left s
3. 100 240 250 260 270 280 290 300 310 Number of measuring points 2 Location Chamber front left side panel Accessory Thermocouple type T copper copper nickel x2 4 when simultaneously equipped with a HASE ee e recorder 100 0 10 00 16 OPTIONS Dual communication logger Connect to a company network and the chamber status can be monitored on PCs and data can also be managed Chamber failures information can be sent to PCs and cellular telephones via emails Number of connected units e unit Functions Monitoring function Data management function e Communication function Operation state Exposure state Running cycle Setting cycle Monitor details Trend graph Monitoring function Mail server MM _ md A Dual communication logger Temperature Thermo couple Intranet company LAN TMS Test area temperature Hot chamber cold chamber specimen temp Test area display temperature Remaining step time Number of alarms Alarm number 1 2 Analog input Thermocouple measured temperature resistance voltage contact other temperature humidity input Monitoring one chamber on one browser screen Save data as binary data on a CF card in the chamber in BETERUE UE TC 5 functions From 1 sec display update interval asnd auto save interval File creation Auto save interval terval
4. Maximum 50 reduction in power consumption with Eco operation mode and new refrigerator control system 9 Power consumption amount comparison example pan c peer ko MR Power consumption amount per cycle by comparing ESPEC chambers p g p g in energy saving Eco 43 operation mode Patent pending The new series incorporates an algorithm mm that calculates the minimum operation time for pre cooling and pre heating by constantly measuring the amount of heat 9596 required for these processes in eco operation mode This feature can further reduce power consumption and remove Previous model _ TH TIMENS the inaccuracies and hassles caused by ower consumption pt amount kWh adjustments based on preliminary experiments Tests operation achieves both B energy savings and reproducibility _ Om na reliability 0 5 0 1 0 0 1 5 0 Power tem on amoun TESCO TRECE 9 Parallel refrigerator control High temp exposure 125 C Exposure time 30 min system for energy saving Low temp exposure 40 C Temperature recovery time Within 5 min Patent ndin Specimen Plastic molded ICs 5 kg 72 102 control a i 9 10 kg 202 To optimize further the power consumption the chamber features a parallel control system that connects two small refrigerators in parallel to the secondary side of the 9 Temperature changes under Eco operation example eiea one reu The chamber G
5. Test area load resistance Inside dimensions W x H x D mm in m A Outside dimensions W x H x D mm in 6 en i rum Weight Approx 730 kg Allowable ambient conditions 200 VAC 39 50 60 Hz 49 A Power supply 220 VAC 39 60 Hz 47 A 380 400 415 VAC 30 50 Hz 27A E Noise level gt Air supply 5 Cooling water supply pressure Cooling water supply rate 8 Operating cooling water temp range 1 Air cooled Ambient temperature of 23 C Water cooled Ambient temperature of 10 to 30 C and a cooling water temperature of 25 C 2 If the high temperature exposure range lower limit 60 C is required select the ambient temperature exposure option 8 Performance shown above conforms to IEC 60068 3 5 2001 4 Temperature heat up pull down time are applicable only during independent chamber operation Within 10 min Within 70 min Two zone High temp exposure 125 C 30 min Low temp exposure 40 C 30 min Power supply voltage Rated voltage Sensor position Upstream Low temp side R508A 30 kg Equally distributed load Two zone test by means of damper switching Ambient temp 50 to 200 C 122 to 392 F 65 to 0 C 85 to 32 F 0 5 C x0 9 F 205 C 401 F Ambient temp to 200 C 392 F Within 15 min 75 C 103 F Ambient temp to 70 C 94 F Within 40 min Within 60 min Within 70 min Within 40 min Recovery conditions Specimen 3 5 kg Specimen 6 5 kg Specimen 7 5
6. Memory time up select from hour day week month Display saved data Trend display digital display with dedicated software convert to Excel data etc Download data Download saved data via the network Error notification 17 Send by email Change the logger display color OPTIONS Ambient temperature exposure EL type only Enables three zone tests by adding a damper mechanism and an air circulator High temp exposure range 60 to 200 C Recorder terminal Used to output the temperature within test area hot chamber and cold chamber Thermocouple Attached to specimens to measure specimen temperature 2 4 6m Thermocouple type T Copper copper nickel Exposure signal output A signal is output via a contact switch when test area temperature is within the user selected range This signal can be used to control peripheral instruments like applying a voltage to specimens only during high temperature exposure or monitoring test operation from a remote point Preparation of a power cable temperature sensor and conductor grounding wire for additional installation in the future Power meter Accumulates the amount of power the chamber uses Eco POWER METER KWIMH Paperless recorder Records the temperature of each section such as the temperature inside the chamber PLIS Number of inputs 1 5 OFF Scan interval 1 sec PL3S Number of inputs 3 3 OFF Scan
7. Power supply voltage Rated voltage 65 C 30 min E Semesy BONE LMS Neary Power supply voltage Rated voltage Sensor position Upstream Specimen 6 5 kg Specimen 7 5 kg Specimen 26 kg Plastic molded ICs 5 kg Plastic molded ICs 5 kg Plastic molded ICs 20 kg Specimen basket brackets 1 5 kg Specimen basket brackets 2 5 kg Specimen basket brackets 6 kg Temp recovery time 4 Within 5 min Within 10 min Exterior material Cold rolled rust proof treated steel plate melamine resin coating Interior material Stainless steel plate Insulation Glass wool rigid polyurethane foam Door Manually operated sliding door with unlock button Heater Stripped wire heater 6 Mechanical cascade refrigeration system 9 S System m E c pus MEC Water cooled condenser 2 water cooled condenser S 5 Compressor Hermetically sealed scroll compressor 5 Expansion mechanism Electronic expansion valve other ci Refrigerant High temp side R404A Low temp side R23 Cooler Plate fin cooler cold accumulator Air circulator Sirocco fan Damper driving unit Air cylinder Test area load resistance 30 kg Equally distributed load 50 kg Equally distributed load Inside dimensions W x H x D mm in 410 x 460 x 370 16 14 x 18 11 x 14 57 650 x 460 x 370 25 59 x 18 11 x 14 57 650 x 460 x 670 25 59 x 18 11 x 26 38 Outside dimensions W x H x D mm in 5 1310 x 1900 x 1470 51 57 x 74 80 x 57 87 1550 x 1900 x 1470 61 02 x 74 80 x 57 87 1550 x 1900 x 1770 61 02 x
8. area temperatures temperature cycles upstream downstream control and trend graphs display y La A EM 5 NS AA f LE ee a P n L alii CD L IE EN E WESN E wey V Vv LA D PA bm um LJ 4 Va It is now possible to program tests to halt after cycle or exposure completion Six cycle counters are also built in to the instrumentation so a test halt preset can be programmed for each counter The function can be used to multiple ends such as removing specimens to the chamber 9 Test continuity selection function When the test 1s halted select to resume the test from the point where it was halted or to start the test from the beginning Setting Interactive key input by touch panel Display TFT Color LCD 10 4 inch Test area exposure temp Temperature Hot chamber pre heating temp control Cold chamber pre cooling defrosting temp function Temperature controls are PID control Temperature 1 C Time 1 min Remaining time display is 1 sec Setting resolution Input Thermocouple type T copper copper nickel Sis TIS PETITS Time 0 to 99 hours 59 minutes SE Test Cycle 1 to 9999 cycles RAM freely register 40 patterns max Registration possible ROM built in fixed 20 standard test patterns Registered Test patterns e Timer preset Program memory Test continuity selection Automatic power e Overheat overcool shut off protection e Programmed time e Up stream down stream display
9. sensor selection Cycle counter e Stable time control Test halt preset e Exposure time reduction Completion mode Eco operation selection Trend graph e Alarm history display e Sensor calibration Auxiliary functions Power failure recovery operation selection e Automatic defrost e Temperature recovery e RS 485 communication time setting e Pre conditioning posttreatment Dry operation e Accumulated time TEST STANDARD AND COMPA Test standard MIL STD 883H Method No 1010 8 C 200 C MIL STD 202G Method No 107G D 350 C IEC 60068 2 14 JIS C 60068 2 14 JASO D 014 4 EIAJ ED 2531A Ambient Ambi om 10 85 C 0 on 15 125 C 0 C 150 C ue D 200 C 15 300 C 15 on 15 17916 0 3 0 3 0 85 C 125 C 5 0 5 0 or 5 500 C 0 on 3 150 C 0 70 C 2 85 C 2 100 C 2 125 C 2 155 C 2 175 C 2 200 C 2 65 C 2 70 C 2 80 C 2 85 C 2 90 C 2 100 C 2 110 C 2 120 C 2 125 C 2 130 C 2 140 C 2 150 C 2 155 C 2 160 C 2 60 C 2 65 C 2 70 C 2 75 C 2 80 C 2 85 C 2 90 C 2 95 C 2 100 C 2 25 C 10 5 Ambient temp 0 0 55 c 9 0 65 C _ 5 C 3 10 C 3 25 C 3 40 C 3 55 C 3 65 C 3 20 C 3 40 C 3 0 C 3 5 C 3 10 C 3 15 C 3 20 C 3 25 C
10. 3 30 C 3 35 C 3 40 C 3 45 C 3 50 C 3 10 min or longer Differs according to specimen weight 28 g or lower 15 min or 30 min 28g to 136g 30min 136 g to 1 36 kg 60 min 1 36 to 13 6 kg 120 min 13 6 to 136 kg 240 min 3 hrs 2 hrs 1 hrs If not specified 3 hrs 20 min 40 min 60 min 90 min 3 hrs 2 hrs 1 hrs If not specified 3 hrs bient recovery time Max 5 min 2 to 3 min Temperature Worst case specimen temp Within 15 min Up stream Within 5 min Exposure time within 10 Exposure time within 10 Exposure time within 10 1 The test results may not meet specifications depending on the quantity of specimens or the setting method 2 Some models cannot be used depending on test conditions For further information please contact ESPEC 3 Applicable when equipped with the ambient temperature exposure option Number of test cycles Minimum 10 5 cycles 25 cycles 50 cycles 100 cycles If not specified 5 cycles If not specified 5 cycles 5 or 10 cycles Test starting point Low temp or High temp Low temp Low temp Low temp Low temp EL type ES type EH type Qr UE E oF CAES SEN Ab e O2 QUIE NO O2 O2 Que ue ESO CHAMBER AND UTILIT 42EL A 72EL A 102EL A 202EL W 302EL
11. 3 5 m Plug socket To supply power to external equipment 2 plug sockets Rated capacity 100 VAC3 A Total capacity Thermal Shock Chamber Series Air to Air Thermal Shock Chamber TSE A compact thermal shock chamber to handle thermal shock testing on small and limited volume specimens It supports standardized testing with no auxiliary cooling and a two zone 150 C and 65 C upstream air temperature recovery time within 5 minutes The TSE model provides the same performance as ESPEC s large thermal shock chambers in a compact design Model Temp range Inside dimensions mm High temp side 60 to 200 C Low temp side 65 to 0 C TSE 11 W320 x H148 x D230 A two zone thermal shock chamber that complies with Japanese and global test standards such as MIL STD 883 and JIS C 0025 The TSD model can perform accurate testing by monitoring the specimen temperature and starting the exposure time count once it has reached the preset temperature or it can immediately proceed to the next step in the sequence The temperature recovery time between 150 C and 60 C is just 15 minutes which reduces the total test duration Model Temp range Inside dimensions mm High temp side 60 to 200 C Low temp side 65 to 0 C TSD 100 W710 x H345 x D410 Liquid to Liquid Thermal Shock Chamber TSB E The liquid to liquid thermal shock chamber is designed to i apply higher stre
12. 74 80 x 69 69 Weight Approx 1050 kg Approx 1150 kg Approx 1400 kg Allowable ambient conditions 0 to 40 C 32 to 104 F 200 VAC 39 50 60 Hz 78 120 A o E Power supply 220 VAC 39 60 Hz 75A 120 A E 380 400 415 VAC 30 50 Hz 50 A 70 A Noise level 65 dB or lower o A Air supply 0 4 to 0 7 MPa 4 to 7 kgf cm Cooling water supply pressure 0 2 to 0 5 MPa 2 to 5 kgf cm water cooled specification 0 2 to 0 5 MPa 2 to 5 kgf cm Cooling water supply rate 3 1 m3 h reference water temp 32 C water cooled specification 4 6 m3 h reference water temp 32 C Operating cooling water temp range 5 to 38 C water cooled specification 1 Ambient temperature of 23 C and a cooling water temperature of 25 C 6 Noise level was measured in an anechoic room at a height of 1 2 m from the 2 Performance shown above conforms to IEC 60068 3 5 2001 floor and a distance of 1 m from the chamber front panel ISO 1996 1 2003 8 Temperature heat up pull down time are applicable only during independent A weighted sound pressure level Actual noise emissions may increase chamber operation because of surrounding reverberations in the place of installation therefore 4 Tolerance in temperature recovery time based on IEC60068 2 1 and IEC60068 2 2 use caution in selecting a place of use 5 Excluding protrusions 7 Rate depends on the cleanliness of the heat exchanger 11 System ae a D H D co co ei c D c
13. Tel 86 21 51036677 BEIJING Branch Tel 86 10 64627025 TIANJIN Branch Tel 86 22 26210366 GUANGZHOU Branch Tel 86 20 83317826 SHENZHEN Branch Tel 86 755 83674422 SUZHOU Branch Fax 852 2620 0788 Fax 86 21 63372237 Fax 86 10 64627036 Fax 86 22 26282186 Fax 86 20 83317825 Fax 86 755 83674228 Tel 86 512 68028890 Fax 86 512 68028860 ESPEC TEST TECHNOLOGY SHANGHAI CO LTD Tel 86 21 68798008 Fax 86 21 68798088 ESPEC SOUTH EAST ASIA SDN BHD Tel 60 3 8945 1377 IT11E23C02 The contents of this catalog is as of November 2011 Fax 60 3 8945 1287 JIS Q 9001 JSAQ 004 ISO 9001 JIS Q 9001 Quality Management System Assessed and Registered ESPEC CORP has been assessed by and registered in the Quality Management System based on the International Standard ISO 9001 2008 JIS Q 9001 2008 through the Japanese Standards Association JSA Registration ESPEC CORP Overseas subsidiaries not included o9 ENVIRONMENTAL Niar S MANAGEMENT EC99J2046 ISO 14001 JIS Q 14001 Environmental Management System Assessed and Registered ESPEC CORP eSpecifications are subject to change without notice due to design improvements eCorporate names and trade names mentioned in this catalog are trademarks or registered trademarks
14. co ce IS O c High temp exposure range Low temp exposure range Temp fluctuation 3 Pre heat upper limit Temp heat up time 4 Pre cool lower limit Temp pull down time 4 Performance Recovery conditions Temp recovery Temp recovery time 5 Exterior material Interior material Insulation Door Heater System Compressor Construction Expansion mechanism Refrigeration unit Refrigerant Cooler Air circulator Damper driving unit Test area load resistance Inside dimensions W x H x D mm in Outside dimensions W x H x D mm in 6 Weight Allowable ambient conditions 200 VAC 39 50 60 Hz Power supply 220 VAC 39 60 Hz 380 400 415 VAC 30 50 Hz E Noise level Air supply z Cooling water supply pressure Cooling water supply rate 8 Operating cooling water temp range 1 Ambient temperature of 23 C and a cooling water temperature of 25 C Two zone or three zone test by means of damper switching 60 to 200 C 140 to 392 F 70 to 0 C 94 to 32 F 0 5 C 0 9 F 205 C 401 F Ambient temp to 200 C 392 F within 15 min 77 C 106 6 F Ambient temp to 75 C 103 F within 50 min Two zone High temp exposure 150 C 15 min Low temp exposure 65 C 15 min Power supply voltage Rated voltage Sensor position Downstream Specimen 5 kg Plastic molded ICs 3 5 kg Specimen basket brackets 1 5 kg Within 5 min Cold rolled rust pro
15. the conductive sections of connectors in low temperature and high temperature thermal cycle environments It can be used connected to the thermal shock chamber Conductor Resistance Evaluation System connection example 4 Characteristics The pursuit of high performance high accuracy and ease of use Highly accurate temperature Recovery rate amp temperature uniformity aa an P TSA 202bES W measurement example E _ Dampers with integrated rectifying function minimize variation in exposure 1 0 C conditions due to specimen position within or lower the test area This reduces the overall test time and shortens temperature recovery time especially during low temperature 7 3 min exposure The uniformity in test conditions brought by this innovation also contributes to improved test reproducibility and reliability i T Wes 38 C rtl 1 5 C or lower Ro om AA ES 1 112 1 1 9 Even more reliable tests Ell i Moe Em option specimen temperature control High temp exposure 125 C 30 min Specimen Printed circuit boards 150 pcs Pre heating temperature 145 C Measuring points 10 A single temperature sensor is attached Low temp exposure 40 C 30 min to the specimen in the test area and the PESTON AG US Gee uS Se C chamber is controlled by this temperature measurement Even more accurate tests can be run by controlling the chamber with the specimen temperature because the air temperatu
16. the heat exchanger 12 13 SAFETY DEVICES eakage breaker 200 220V AC specifications Circuit breaker 380 400 415V AC CE specifications e Electrical compartment door switch Test area door switch e Hot chamber overheat protection switch e Cold chamber overheat protection switch Hot chamber overheat protector controller e Cold chamber overheat protector controller Air circulator overload relay e Refrigerator high low pressure switches e Compressor built in protector except TSA 42EL e Compressor temperature switch Thermal relay for compressor TSA 42EL only e Water suspension relay water cooled specification only Air circulator thermal relay Motor reverse prevention relay Air pressure switch Fuse Cooling tower interlock terminal water cooled specification only Compressor circuit breaker Heater circuit breaker Test area overheat overcool protector controller Test area overheat overcool protector option Air purge valve e Specimen power supply control terminal FITTINGS e Cable port 950 mm left side M 1 e Specimen power supply control terminal Me 1 Time signals 2 Do not use explosive substances flammable substances or substances that contain those substances as a specimen under any circumstances Danger Risk of explosion and fire AN DANGER Do not put corrosive substanc
17. 2 to 5 kgf cm 4 6 m3 h ref water temp 32 C 5 to 38 C 41 to 100 F 5 Tolerance in temperature recovery time is based on IEC60068 2 1 and IEC60068 2 2 6 Excluding protrusions 7 Noise level was measured in an anechoic room at a height of 1 2 m from the floor and a distance of 1 m from the chamber front panel ISO 1996 1 2003 A weighted sound pressure level Actual noise emissions may increase because of surrounding reverberations in the place of installation therefore use caution in selecting a place of use 8 Rate depends on the cleanliness of the heat exchanger 10 CCE TSA 72ES A W TSA 102ES W TSA 202ES W System Two zone or three zone test by means of damper switching High temp exposure range 60 to 200 C 140 to 392 F E Low temp exposure range 70 to 0 C 94 to 32 F I Temp fluctuation 2 0 5 C 0 9 F E Pre heat upper limit 205 C 401 F amp Temp heat up time Ambient temp to 200 C 392 F within 15 min 8 Pre cool lower limit 75 C 103 F E m Ambient temp to 75 C 103 F x Temp pull down time le DNE AN Within 40 min Within 50 min Within 45 min S Three zone High temp exposure Three zone dus i 9 High temp exposure 150 C 30 min So el LUE boire gt Ambient temperature exposure Ambient temperature 5 min Ambienti p t is SUM 2 Low temp exposure 65 C 30 min rr ses a 5 l i Low temp exposure o Recovery conditions
18. Quality is more than a word Ir rto A mbers RE Series is i B SETS Eg li B T I li Y In E g d I P n E 1 D gt E i d y M EF a m W 1 q CAT NO E11138 Z1111 Energy savings and high reliability in the new series New series thermal shock chambers have been developed to improve our existing models 1n terms of reliability but also in terms of efficiency Compared to the previous TSA series the power consumption has been reduced of 35 5096 Energy saving is achieved thanks to the Eco operation mode the instrumentation automatically adjusts pre cooling and pre heating periods and runs operations with just the necessary energy Improvements in chamber s reliability Particular emphasis was placed on removing unnecessary loads and stresses from the refrigeration system refrigerators themselves and the refrigeration circuit Various measures have been implemented to anticipate troubles and enhance chamber s relrabrty Thermal stress on the specimen can differ according to its position therefore we have further minimized variations in the temperature attainment time that 1nf luences test results Finalty we are accurately responding to the needs of these days by adapting our safety designs to global requirements thanks to our experience of the market TSA 102 TSA 202 TSA 302 Equipped with options 2 Characteristics
19. These chambers can be used to test large products such Two types of air direction vertical and horizontal as large parts used in automobiles large flat panel displays Features Eco operation mode that continue increasing in size and solar cell modules These chambers can also test a large volume of specimens at a single time in such fields as quality inspections in manufacturing processes Model TSA 1050H TSA 1650H TSA 2600H TSA 3600H System Two or three zone by means of damper switching High temp o S exposure 60 to 180 C o o j Low temp exposure 60 to 10 C O IE E Two zone High temperature exposure 150 C 60 min o E Recovery amp conditions Low temperature exposure 50 C 60 min 8 e Sensor position Upstream of specimen Ie poi HOS S Within 10 min time Test area dimensions mm W1500 x H700 x D1000 W1500xH1100 x D1000 W1200 x H1200 x D1800 W1200 x H1500 x D2000 External dimensions mm W2620 x H1785 x D2862 W2620 x H2210 x D3184 W4370 x H2290 x D2500 W4370 x H2590 x D2700 E S P EC CO RP http www espec co jp english Head Office 3 5 6 Tenjinbashi Kita ku Osaka 530 8550 Japan Tel 81 6 6358 4741 Fax 81 6 6358 5500 ESPEC NORTH AMERICA INC Tel 1 616 896 6100 ESPEC EUROPE GmbH Tel 49 89 1893 9630 Fax 49 89 1893 96379 Fax 1 616 896 6150 ESPEC CHINA LIMITED Tel 852 2620 0830 ESPEC ENVIRONMENTAL EQUIPMENT SHANGHAI CO LTD Head Office
20. W 72ES A 72ES W nues wars Water cooled Water cooled Water cooled Air cooled 200 VAC 49 A 70A 70A 110 A 120 A 78 A 120 A 112 A x 220 VAC 47 A 70A 70A 110A 120A 75 120 A 108A a 380 400 415 VAC 27A 45 A 45 A 65A 70A 50A 70A 60A Air 0 4 to 0 7 MPa 4 to 7 kgf cm 50 Hz 95700 59700 95700 95700 Condensation load KJ h 1 60 Hz 96100 64800 104600 96100 Cooling water supply rate at reference 4 6 m3 h 3 1 m3 h 4 6 m3 h water temp 32 C 12 0 2 to 0 5 MPa 0 2 to 0 5 MPa DEIN BILE m 2 to 5 kgf cm m 2 to 5 kgf cm Piping connection size 32A W 1140 W1310 W1550 W1550 W 1870 W 1310 W 1550 W1550 W 1310 e EE H1900 H1900 H1900 H1900 H1900 H 1900 H1900 H1900 H1900 D 1270 D 1470 D 1470 D 1770 D 1770 D 1470 D 1470 D 1770 D 1770 1 Maximum possible value during temperature recovery 2 Rate depends on the cleanliness of the heat exchanger Model TSA 42EL A TSA 72EL A TSA 102EL A TSA 202EL W TSA 302EL W System High temp exposure range Low temp exposure range Temp fluctuation 3 Pre heat upper limit Temp heat up time Pre cool lower limit Temp pull down time 4 Performance Temp recovery Cold chamber Hotchamber Test area Exterior material Interior material Insulation Door Heater ure 5 System 2 c E e CEE Hermetically sealed S p rotary compressor amp Expansion mechanism L High temp side R404A Refrigerant Cooler Air circulator Damper driving unit
21. an d ded EE operate at the optimal refrigeration capacity Qu ES based on the controlled temperature by Operation setup Stop operation Pre heating operation Stop operation ja switching operation between two E refrigerators simultaneously or a single 5 qup a So refrigerator At stable low temperature E High temp High temp exposures power consumption is also T AR aaa 1 eum reduced by limiting refrigeration capacity i with an electronic expansion valve 5 i i 5 9 Measuring used power E 2 EUM Free option power meter I exposure exposure Stop operation Pre cooling operation Stop operation Pre cooling operation A wattmeter is provided as an option to measure the power consumed It is also possible to halt a test by setting the stop time This function is useful for saving energy Characteristics Further reductions in power consumption with 500 hour continuous tests 9 Minimizing defrosting burden with defrost free operation option defrost free operation 9 1000 cycles 500 hour test time comparison example EH Type Test start 1000 cycles Until now testing was interrupted for Defrost 20 times defrosting when necessary but ESPEC 5 s le le le le has developed a unique structure that stops S E 7 E frost formation under low temperatures by preventing the penetration of outside a a A o air defrost free operation patent 3514735 24h 24h 24h 24h Defrosting during cycl
22. e is no air supply source 18 OPTIONS Automatic door Automatic sliding door vertical operated by single touch button Equipped with 2 safety mechanisms a photoelectric sensor and a touch sensor A door stop switch is also set f you also need the emergency stop switch please contact us Additional cable port Provided in addition replacement of the standard cable port left side 950 mm round Flat cable port Provided in addition replacement of the standard cable port left side 25 x 100 mm slot Cable port rubber plug Prevents air leakage from the cable port 950 mm for round port For flat cables Caster Installed for mobility 6 casters 4 for TSA 42EL 4 levelling feet 19 Specimen basket shelf brackets Power cable 5 m 10m The chamber does not come with a Equivalent to standard accessory Material stainless steel 5 mesh power cable Heavy duty shelf Use to hold heavy specimens exceeding the load capacity of the standard specimen basket Load capacity 30 kg Chamber dew tray Prevents water leaks from the chamber onto the floor The use of casters is recommended to facilitate operation Anchoring fixtures Used to bolt the chamber to the floor Interface Computer interface GPIB Serial interface RS 232C Select one instead of standard RS 485 Communication cable RS 485 cable 5 10 m GPIB 2 4 m RS 232C 1 5
23. e tests is then P Ds unnecessary thus reducing defrosting time E dent and the power consumed for this a Defrost 1 hourix 20 times operation 8 z Power oD Whe amount kWh reduction i Q 9 1000 m continuous EE opera lon Consumed power amount to defrost once 13 6 kWh option defrost free operation Consumed power amount to defrost 20 times 272 kWh Defrost free operation is provided as an TE IO MELO NE TYO en MB SISTI ti 500 h High temp exposure 150 C 15 min Cooling water temp 25 C option so hour continuous operation Low temp exposure 65 C 15 min Specimen No specimen can be performed without interruption 1f Outside conditions 23 C 60 rh test conditions are set for 15 minute exposure 9 Vertical sliding door Equipped with a vertical sliding structure the door does not disrupt when inserting and removing specimens or when connecting cables to a specimen The door has been lightened so that it can be easily opened and closed ih ss L weverT RER IT 9 Equipped with a round cable port The chamber is equipped with a 9050 mm cable port so cables with bulky terminal connectors and plugs can be easily connected A flat cable port is also available as an option Vertically sliding door 9 Combination with the ESPEC s evaluation system The ESPEC s Conductor Resistance Evaluation System sold separately can continuously measure the minute resistance in solder joints and
24. es inside the test area If corrosive substances are generated from the specimen the life of the product s corrosion resistance will decrease dramatically due in particular to corrosion of stainless steel resin and silicone Do not use living organisms or items that exceed the allowable heat load as a specimen Always read the user s manual before using the Caution Product MODEL TSA LILI LI Le Condensation system A Air cooled type W Water cooled type Performance classification EL ES EH Test area capacity 42 40L 72 70L 102 110L 202 200L 302 300L ACCESSORIES e Specimen basket 18 8 Cr Ni stainless steel 5 mesh metal basket TSA 42 W230 x H40 x D356 mm load capacity 2 5 kg 2 TSA 72 W400 x H40 x D356 mm load capacity 5 kg 2 TSA 102 W640 x H40 x D356 mm load capacity 5 kg e 2 TSA 202 W640 x H40 x D656 mm load capacity 17 kg 2 TSA 302 W960 x H40 x D656 mm load capacity 17 kg 2 e Shelf brackets shelf attachment pitch 60 mm adjustable in 7 levels 2 sets e Cartridge fuse L AE 2 10A non standard specification eee 1 Cable DOr rubber plug rennes 1 e Nipple water cooled specification only mme 1 e Strainer water cooled specification only 1 e Strainer element water cooled specification only
25. ide panel lissieam T S 1 i rx j Accessory Thermocouple type T copper Sensor temp o o uo P3 c dr d d M d Temperature C a o _50 copper nickel x1 2 when simultaneously equipped with a 100 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 recorder Test conditions High temp exposure 150 C 30 min Specimen Plastic molded ICs 3 5 kg Ambient temp exposure 5 min Specimen baskets 2nd and 6th level from top Low temp exposure 65 C 30 min Control points 28 pin QFP quad flat package with sensor installed at center of 6th level Ip T EXP HEAD 15 n i v LOF MEMO NS 15 00 00 Pattern Edit EE Monitor j B ETT Point mm e ECOL nowy E C SPECIMEN peration Specimen temperature monitoring with trigger function Two sensors are attached to the specimen and Measurement example the temperature of the specimen displayed No of specimen temperature input terminal 2 on the instrumentation is monitored The 200 i option has a trigger function that switches to 150 the exposure test after the specimen _ Start of exposure temperatures reach the temperature setting VOL ume COUN so even more precise tests can be run It can O E m also record the temperatures of the specimen 2 Specimen and the test area when connected to a E temp 2 26 Start of exposure temperature recorder time count Cannot be combined with Eco operation no mode
26. interval 1 sec PL3L Number of inputs 3 3 OFF Scan interval 5 sec PLAS Number of inputs 4 2 OFF Scan interval 1 sec PLAL Number of inputs 4 2 OFF Scan interval 5 sec PLSS Number of inputs 5 1 OFF Scan interval 1 sec PLSL Number of inputs 5 1 OFF Scan interval 5 sec Temperature range 100 to 220 C External memory CF memory card port Includes a 256 MB CF card USB memory port Languages English Japanese can be changed Channels can be turned ON RK 61 1 pen RK 63 3 pens RK 64 6 dots Temperature range 100 to 220 C Effective recording chart width 100 mm ibidis LD dab bd ih SER Ha Recorder wiring Preparation of a power cable temperature sensor and conductor grounding wire for additional installation in the future Additional overheat protectors Additional preventive measures can be taken for excessive temperature rise in the chamber in addition to the standard equipped overheat protector External alarm terminal If the safety device of the chamber is activated the external alarm terminal will notify it to a remote point Emergency stop pushbutton Stops the chamber immediately Status indicator light To check the state of the chamber from distant locations Total cycle counter Indicates cycle counts With reset function Display range 1 to 99999999 TOTAL CYCLE COUNTER mm Built in air compressor Select when ther
27. kg Specimen 16 kg Specimen 17 kg Plastic molded ICs 2 5 kg Plastic molded ICs 5 ko Plastic molded ICs 5 kg Plastic molded ICs 10 kg Plastic molded ICs 10 kg specimen basket brackets 1 kg specimen basket brackets 1 5 kg specimen basket brackets 2 5 kg specimen basket brackets 6 kg specimen basket brackets 7 kg Temp recovery time s Within 15 min Within 5 min Within 10 min Cold rolled rust proof treated steel plate melamine resin coating Stainless steel plate Glass wool rigid polyurethane foam Manually operated sliding door with unlock button Stripped wire heater Mechanical cascade refrigeration system Air cooled condenser Water cooled condenser Hermetically sealed scroll compressor Electronic expansion valve other High temp side R404A Low temp side R23 Plate fin cooler cold accumulator Sirocco fan Air cylinder 50 kg Equally distributed load 410 x 460 x 370 650 x 460 x 370 650 x 460 x 670 970 x 460 x 670 16 14 x 18 11 x 14 57 25 59 x 18 11 x 14 57 25 59 x 18 11 x 26 38 38 19 x 18 11 x 26 38 1310 x 1900 x 1470 1550 x 1900 x 1470 1550 x 1900 x 1770 1870 x 1900 x 1770 51 57 x 74 80 x 57 87 61 02 x 74 80 x 57 87 61 02 x 74 80 x 69 69 73 62 x 74 80 x 69 69 Approx 900 kg Approx 1050 kg Approx 1200 kg Approx 1420 kg 0 to 40 C 32 to 104 F 70 A 70 A 110 A 120 A 70 A 70 A 110 A 120 A 45 45 65 70 A 65 dB 62 dB 65 dB 0 4 to 0 7 MPa 4 to 7 kgf cm 0 2 to 0 5 MPa
28. of treated steel plate melamine resin coating Stainless steel plate Glass wool rigid polyurethane foam Manually operated sliding door with unlock button Stripped wire heater Mechanical cascade refrigeration system Water cooled condenser Hermetically sealed scroll compressor Electronic expansion valve other High temp side R404A Low temp side R23 Plate fin cooler cold accumulator Sirocco fan Air cylinder 30 kg Equally distributed load 410 x 460 x 370 16 14 x 18 11 x 14 57 1310 x 1900 x 1770 51 57 x 74 80 x 69 68 Approx 1150 kg 0 to 40 C 32 to 104 F 112A 108 A 60A 65 dB or lower 0 4 to 0 7 MPa 4 to 7 kgf cm 0 2 to 0 5 MPa 2 to 5 kgf cm 4 6 m3 h reference water temp 32 C 5 to 38 C 7 Noise level was measured in an anechoic room at a height of 1 2 m from the 2 During pre heating prevention operation for temperature heat up may be worked 8 Performance shown above conforms to IEC 60068 3 5 2001 4 Temperature heat up pull down time are applicable only during independent chamber operation 5 Tolerance in temperature recovery time based on IEC60068 2 1 and IEC60068 2 2 6 Excluding protrusions floor and a distance of 1 m from the chamber front panel ISO 1996 1 2003 A weighted sound pressure level Actual noise emissions may increase because of surrounding reverberations in the place of installation therefore use caution in selecting a place of use 8 Rate depends on the cleanliness of
29. re and the temperature inside the specimen are different when attaining the temperature setting The chamber is controlled so that the specimen temperature achieves the temperature setting even quicker and more accurately Cannot be combined with Eco operation mode 9 Specimen temperature monitoring option specimen temperature monitor with trigger function Two temperature sensors are attached to the specimen in the test area to measure the specimen s temperature This option features a trigger function that switches to the exposure test after the two temperatures reach the temperature setting so even more precise thermal tests can be run Cannot be combined with Eco operation mode Test area Characteristics Improved reliability Use our chambers safely and with peace of mind for many years to come 9 The newly developed refrigeration system improves the refrigeration circuit reliability 9 Refrigeration circuit Parallel refrigeration system patent pending To reduce thermal stress on the refrigerators and prevent corrosion in the circuit the material and thickness of piping has been changed and this prevents refrigerant leaks Through other countless detailed improvements the reliability of the refrigeration circuit has been increased and it can be used safely for many years to come Drainage Condenser ITI lt 5 TD Q a Q o 6 O 50 32 5 9 oo D O D Water Accum
30. ss to specimens It has also greatly reduced required minimum installation space The highly airtight test areas and numerous new mechanisms reduce brine consumption thus greatly reducing running costs It features easy operation thanks to the color LCD interactive touch screen system Specimen basket Model Temp range dimensions mm TSB 21 High temp chamber W120 x H150 x D120 70 to 200 C Low temp chamber TSB 51 65 to 0 C W150 x H150 x D200 20 Custom made Equipment 21 Thermal Shock Chamber 300 C specification Chambers that achieve high temperature exposure of 300 C in thermal shock testing to find heat resistance at high temperatures TSA 72ES 300 C specification TSD 100 300 C specification TSE 11 300 C specification High temp side 60 to 300 C Low temp side 70 to 0 C 65 to 0 C High temp 300 C 30 min 4270 C 40 min 300 C 30 min exposure time Ambient temp exposure time Ambient temp 5 min _ Temp recovery performance Temp range P o _65 C 30 min _40 C 40 min _45 C 30 min Sensor position Upstream of specimen Specimen Plastic molded ICs 5 kg Plastic molded ICs 5 kg Plastic molded ICs 1 kg ee Within 20 min Within 5 min Within 10 min YS aea W410 x H460 x D370 W710 x H345 x D410 W320 x H148 x D230 dimensions mm Supported TSA series models TSA 72ES TSA 102ES TSA 72EH Large capacity Thermal Shock Chamber TSA 1650H TSA 2600H
31. ulator Accumulator Ed Compressor Q Global safety design We deliver chambers that conform to international safety standards Our chambers conform to ISO risk assessment as well as global safety design electrical safety standards such as CE marking and EMC directive ISO 12100 2010 ISO 60204 1 IEC 610000 6 EN standardization is standardized by the European Union 1 28 WED E 10 100 0 10 00 eTest settings 9 Test detail monitor Pr gra Temp H Exp Temp Sub Monitor l a Ry m 45 C 40 C acm 5 m al Pre Cool Temp Cycle Count Service guide MEN 1 28 WED LT n 1 28 WED 15 00 00 ET 14 00 00 Service Duide 1 2 Leakege Breaker Strainer Element ETS LE RUUQUUUR uu R rm Trip Test Cleaning OE NT NU Use 2 verheat Protector Air Filter Cleaning CHO j Trip Test and Replacement 1009 f A NO USE 0008 vercool Protector Oil Filter Cleaning T Trip Test and Replacement CS aa m Water Suspension i Air Circuit No l NO USE a J3 QUE Relay Trip Test Adjustment Ti B reser de how OEE Press the item you want to view e Alarm Alarm Name SPECIMEN TEMP SENSOR OFF SPE cur CLR aj Press the Alarm Name box o tive for explanation 14 00 00 nn and settings simplified by tt the use of a touch screen LCD display instructions displayed on screen At a glance confirmation of test patterns test
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