TDC5 njikwa okpomọkụ

"

Ozi ngwaahịa

Nkọwapụta

• Product: TDC5 Temperature Controller
• Onye nrụpụta: Gamry Instruments, Inc.
• Akwụkwọ ikike: afọ 2 site na ụbọchị mbupu mbụ
• Nkwado: Enyemaka ekwentị efu maka nrụnye, ojiji na
  n'iji ya gee ntị

Ntuziaka ojiji ngwaahịa

Nwụnye

Ensure you have the instrument model and serial numbers
available for reference.

Visit the support page at https://www.gamry.com/support-2/ for
ozi nwụnye.

Ọrụ

If experiencing issues, contact support via phone or email with
nkọwa dị mkpa.

For immediate assistance, call from a telephone next to the
instrument for real-time troubleshooting.

Nlekọta

Regularly check for software updates on the support page
enyere.

Keep instrument model and serial numbers handy for any support
arịrịọ.

FAQ

Ajụjụ: Gịnị bụ oge ikike maka TDC5 Okpomọkụ
Onye njikwa?

A: The warranty covers defects resulting from faulty manufacture
for two years from the original shipment date.

Ajụjụ: Kedu ka m ga-esi nweta nkwado ndị ahịa?

A: You can contact support via phone at 215-682-9330 or
akwụghị ụgwọ na 877-367-4267 during US Eastern Standard Time.

Ajụjụ: Gịnị kpuchiri n'okpuru akwụkwọ ikike nwere oke?

A: The warranty covers repair or replacement for defects in
manufacture, excluding other damages.

"'

Akwụkwọ ntuziaka onye ọrụ njikwa okpomọkụ TDC5
Copyright © 2019­2025 Gamry Instruments, Inc. Revision 1.5.2 July 28, 2025 988-00072

Ọ bụrụ na ị nwere nsogbu
Ọ bụrụ na ị nwere nsogbu
Biko gaa na ibe ọrụ na nkwado anyị na https://www.gamry.com/support-2/. Ibe a nwere ozi gbasara nrụnye, mmelite ngwanrọ na ọzụzụ. O nwekwara njikọ na akwụkwọ ọhụrụ dị. Ọ bụrụ na ịnweghị ike ịchọta ozi ịchọrọ n'aka anyị websaịtị, ị nwere ike ịkpọtụrụ anyị site na email site na iji njikọ enyere na anyị website. Alternatively, you can contact us in one of the following ways:

Ekwentị ịntanetị

https://www.gamry.com/support-2/
215-682-9330 9:00 AM-5:00 PM (US Eastern Standard Time) 877-367-4267 (Toll-free US & Canada Only)

Biko nweta ụdị ngwá ọrụ gị na nọmba serial gị, yana sọftụwia na ngbanwe ọ bụla dabara adaba.
Ọ bụrụ na ị na-enwe nsogbu na nrụnye ma ọ bụ iji TDC5 Temperature Controller, biko kpọọ site na ekwentị n'akụkụ ngwá ọrụ, ebe ị nwere ike ịgbanwe ntọala ngwá ọrụ mgbe ị na-agwa anyị okwu.
Anyị nwere obi ụtọ ịnye ọkwa nkwado efu maka ndị zụrụ TDC5. Nkwado ezi uche dị na ya gụnyere enyemaka ekwentị na-ekpuchi nrụnye, ojiji, yana ntuzi dị mfe nke TDC5.
Akwụkwọ ikike nwere oke
Gamry Instruments, Inc. na-enye onye ọrụ izizi ngwaahịa a ikike na ọ ga-enwere ntụpọ n'ihi nrụpụta ngwaahịa ahụ ezighi ezi ma ọ bụ akụrụngwa ya ruo afọ abụọ site na ụbọchị mbupu mbụ nke ịzụrụ.
Gamry Instruments, Inc. anaghị ekwe nkwa gbasara ma arụmọrụ na-eju afọ nke Reference 3020 Potentiostat/Galvanostat/ZRA gụnyere ngwanrọ enyere na ngwaahịa a ma ọ bụ mma nke ngwaahịa ahụ maka ebumnuche ọ bụla. Ngwọta maka imebi akwụkwọ ikike a nwere oke ga-enwe oke naanị iji rụkwaa ma ọ bụ dochie ya, dịka Gamry Instruments, Inc. siri kpebie ma agaghị agụnye mmebi ndị ọzọ.
Gamry Instruments, Inc. nwere ikike ịmegharị na sistemụ ahụ n'oge ọ bụla na-enweghị ọrụ ọ bụla ịwụnye otu na sistemu azụrụ na mbụ. Nkọwapụta sistemụ niile nwere ike ịgbanwe n'enweghị ọkwa.
Enweghị akwụkwọ ikike nke gafere nkọwa ebe a. Akwụkwọ ikike a dị n'ọnọdụ, ma wepụ ihe ọ bụla na akwụkwọ ikike ma ọ bụ ihe nnọchi anya ọ bụla, nke egosipụtara ma ọ bụ nke iwu kwadoro, gụnyere ịzụ ahịa na ahụike, yana ọrụ ọ bụla ma ọ bụ ụgwọ nke Gamry Instruments, Inc., gụnyere ma ọnweghị oke na , pụrụ iche ma ọ bụ na-akpata mmebi.
Akwụkwọ ikike a nwere oke na-enye gị ikike iwu akọwapụtara yana ị nwere ike ịnwe ndị ọzọ, nke dị iche site na steeti ruo na steeti. Steeti ụfọdụ anaghị ekwe ka ewepụrụ mmebi mberede ma ọ bụ nke ga-akpatara ya.
No person, firm or corporation is authorized to assume for Gamry Instruments, Inc., any additional obligation, or liability not expressly provided herein except in writing duly executed by an officer of Gamry Instruments, Inc.
Nkwuputa
Gamry Instruments, Inc. enweghị ike ikwe nkwa na TDC5 ga-arụ ọrụ na sistemụ kọmputa niile, igwe ọkụ, ngwaọrụ jụrụ oyi, ma ọ bụ sel.
A enyochala ozi dị n'akwụkwọ ntuziaka a nke ọma ma kwenye na ọ bụ eziokwu dịka oge ewepụtara ya. Agbanyeghị, Gamry Instruments, Inc. anaghị eburu ibu ọrụ maka mperi nwere ike ịpụta.

3

Ikike nwebisiinka
Ikike nwebisiinka
TDC5 Temperature Controller Operator’s Manual copyright © 2019-2025, Gamry Instruments, Inc., all rights reserved. CPT Software Copyright © 1992­2025 Gamry Instruments, Inc. Explain Computer Language Copyright © 1989­2025 Gamry Instruments, Inc. Gamry Framework copyright © 1989-2025, Gamry Instruments, Inc., all rights reserved. Interface 1010, Interface 5000, Interface Power Hub, EIS Box 5000, Reference 620, Reference 3000TM, Reference 3000AETM, Reference 30K, EIS Box 5000, LPI1010, eQCM 15M, IMX8, RxE 10k, TDC5, Gamry Framework, Echem Analyst 2, Echem ToolkitPy, Faraday Shield, and Gamry are trademarks of Gamry Instruments, Inc. Windows® and Excel® are a registered trademark of Microsoft Corporation. OMEGA® is a registered trademark of Omega Engineering, Inc. No part of this document may be copied or reproduced in any form without the prior written consent of Gamry Instruments, Inc.
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Tebulu ọdịnaya
Tebulu ọdịnaya
Ọ bụrụ na ị nwere nsogbu ………………………………………………………………………………………………………………………………………………………………………………… 3
Akwụkwọ ikike nwere oke ………………………………………………………………………………………………………………………………………………………………… 3
Nkwenye ………………………………………………………………………………………………………………………………………………………………… 3
Ikike nwebiisinka ………………………………………………………………………………………………………………………………………………………………… … 4
Tebulu ọdịnaya…………………………………………………………………………………………………………………………. 5
Isi nke 1: Nyocha nchekwa .......................................................................................................................... ………………………………………………………………………………………………………………………………………………………….. 7 Ahịrị Voltages …………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… Nzọpụta oge ......................................................................................................................................... ihe eletriki eletriki eletriki ................... ........................................................................................ .... ………………………………………………………………………………………………………………………….. …………………………………………………………………………………………………………………………………………………………………
Isi nke 2: Ntinye …………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… Nleba anya mbụ ……………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………………………… 11 Ọdịiche n'etiti Omega CS11DPT na TDC5 ………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… …………………………………………………………………………………………………. 11 Ọdịiche Firmware …………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… ................ …………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………….. 11 Iji njikwa ngwaọrụ wụnye TDC8 … .................................................................................................................................. ………………………………………………………………………… 5 Ijikọ TDC12 na nyocha RTD………………………………………………………………………… …………………………………. 12 Igwe ekwentị sitere na Potentiostat ………………………………………………………………………………………………………………………….. 12 Ịtọlite ​​​​ụdị eji arụ ọrụ TDC12 ………………………………………………………………………………………………………………………….. 13 Na-elele ọrụ TDC14………………………………………………… ................................................................ 5.. 14
Isi nke 3: TDC5 Eji ………………………………………………………………………………………………………………………………………………………………… 19 Iji script Framework ka ịtọlite ​​na jikwaa TDC5 gị ………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………… 19 Na-emegharị TDC19 njikwa okpomoku: gafereview …………………………………………………………………. 20 When to Tune …………………………………………………………………………………………………………………….. 20 Auto Tuning the TDC5 ………………………………………………………………………………………………………….. 21
Ihe mgbakwunye A: Nhazi onye njikwa ndapụta ………………………………………………………………………………………………….. 23 menu mmalite mmalite ………………………… ………………………………………………………………………………………………………………………………… Mbido MODMAMAMGINT ................................................ Emere ya ka ọ bụrụ ntọala mbụ ………………………………………………………………………………………… 23
Appendix B: Index ………………………………………………………………………………………………………………………. 33
5

Atụmatụ nchekwa
Isi nke 1: Echiche nchekwa
Ngwa Gamry TDC5 gbadoro ụkwụ na njikwa ọnọdụ okpomọkụ, Omega Engineering Inc. Model CS8DPT Omega na-enye ntuziaka onye ọrụ na-ekpuchi okwu nchekwa n'ụzọ zuru ezu. N'ọtụtụ oge, a naghị emepụtaghachi ozi Omega ebe a. Ọ bụrụ na ịnweghị akwụkwọ a, kpọtụrụ Omega na http://www.omega.com. Enyerela TDC5 njikwa okpomọkụ gị n'ọnọdụ adịghị mma. Gaa na ntuziaka onye ọrụ Omega iji hụ na ngwaọrụ a na-aga n'ihu na nchekwa.
Nyocha
Mgbe ị nwetara TDC5 njikwa okpomọkụ gị, lelee ya maka ihe akaebe nke mmebi mbupu. Ọ bụrụ na ị chọpụta mmebi ọ bụla, biko gwa Gamry Instruments Inc. na ndị na-ebubu ya ozi ozugbo. Chekwaa akpa mbupu maka onye na-ebu ya nwere ike ịlele ya.
A TDC5 Temperature Controller damaged in shipment can be a safety hazard. The protective grounding can be rendered ineffective if the TDC5 is damaged in shipment. Do not operate damaged apparatus until a qualified service technician has verified its safety. Tag TDC5 mebiri emebi iji gosi na ọ nwere ike ịbụ ihe egwu nchekwa.
Dị ka akọwara na mbipụta IEC 348, chọrọ nchekwa maka ngwa eletrọnịkị, TDC5 bụ ngwa klaasị I. Ngwa klaasị 5 adịghị echekwa naanị ihe egwu ọkụ eletrik ma ọ bụrụ na ejikọrọ ihe ngwaọrụ ahụ na ala ala nchebe. Na TDC5 a na-eme njikọ ala nchebe a site na ala ala na eriri eriri AC. Mgbe ị na-eji TDCXNUMX nwere eriri ahịrị akwadoro, a na-eme njikọ na ala ala nchebe na-akpaghị aka tupu ịme njikọ ike ọ bụla.
If the protective ground is not properly connected, it creates a safety hazard, which could result in personnel injury or death. Do not negate the protection of this earth ground by any means. Do not use the TDC5 with a 2-wire extension cord, with an adapter that does not provide for protective grounding, or with an electrical outlet that is not properly wired with a protective earth ground.
A na-enye TDC5 eriri ahịrị dabara adaba maka ojiji na United States. N'obodo ndị ọzọ, ị nwere ike dochie eriri ahịrị na nke dabara maka ụdị ntinye ọkụ eletrik gị. Ị ga-eji eriri ahịrị mgbe niile nwere njikọ nwanyị CEE 22 Standard V na njedebe ngwa nke eriri. Nke a bụ otu njikọ ejiri na eriri ahịrị US wetara na TDC5 gị. Omega Engineering (http://www.omega.com) bụ otu ebe maka eriri ahịrị mba ụwa, dịka akọwara na ntuziaka onye ọrụ ha.
If you replace the line cord, you must use a line cord rated to carry at least 15 A of AC current. If you replace the line cord, you must use a line cord with the same polarity as that supplied with the TDC5. An improper line cord can create a safety hazard, which could result in injury or death.
A na-egosi polarity wiring nke njikọ wired nke ọma na Tebụl 1 maka ma eriri ahịrị US na eriri ahịrị Europe na-agbaso mgbakọ wiwi "kwekọrọ".
7

Mpaghara US European

Atụmatụ nchekwa
Isiokwu 1 Ahịrị eriri Polarities na agba

Ahịrị Black Brown

Na-anọpụ iche na-acha anụnụ anụnụ

Ụwa-Ground Green/Yellow

Ọ bụrụ na ị nwere obi abụọ ọ bụla gbasara eriri ahịrị maka ojiji na TDC5 gị, biko kpọtụrụ onye na-ahụ maka ọkụ eletrik ma ọ bụ ọkachamara ọrụ akụrụngwa maka enyemaka. Onye tozuru etozu nwere ike ime nlele na-aga n'ihu dị mfe nke nwere ike ịchọpụta njikọ nke chassis TDC5 na ụwa wee si otú ahụ lelee nchekwa nke nrụnye TDC5 gị.
Ahịrị Voltages
Emebere TDC5 ka ọ rụọ ọrụ na eriri AC voltages n'etiti 90 na 240 VAC, 50 ma ọ bụ 60 Hz. Enweghị mgbanwe nke TDC5 achọrọ mgbe ị na-agbanwe n'etiti US na mba ụwa AC ahịrị voltages.
Gbanwee AC OutletsFuses
Abụọ nke agbanwuru na azụ nke TDC5 nwere fuses n'elu na n'aka ekpe nke ihe nrụpụta. Maka mmepụta 1, ogo fiusi kacha kwenye bụ 3 A; maka mmepụta 2, fuse kacha ekwenyere bụ 5 A.
A na-enye TDC5 3 A na 5 A, nke na-agba ọsọ ọsọ, 5 × 20 mm fuses n'ime oghere ndị gbanwere.
Ị nwere ike ịchọrọ ịhazi fuses na oghere ọ bụla maka ibu a tụrụ anya ya. Maka example, ọ bụrụ na ị na-eji ọkụ ọkụ 200 W cartridge nwere eriri ọkụ 120 VAC, ọnụ ọgụgụ dị ugbu a dị ntakịrị karịa 2 A. Ị nwere ike ịchọrọ iji 2.5 A fuse na ntinye ọkụ na ọkụ ọkụ. Idobe ogo fiusi dị n'elu ike ekwuru nwere ike igbochi ma ọ bụ belata mmebi nke ọkụ ọkụ na-arụ ọrụ na-ekwesịghị ekwesị.
TDC5 Nchekwa ọpụpụ eletriki
TDC5 nwere oghere eletrik abụọ gbanwere na azụ azụ nke ogige ya. Mwepụta ndị a dị n'okpuru njikwa modul njikwa TDC5 ma ọ bụ kọmputa dịpụrụ adịpụ. Maka nchekwa nchekwa, mgbe ọ bụla agbanyere TDC5, ị ga-emerịrị ụzọ ndị a ka ọ dị.
N'ọtụtụ oge, TDC5 na-enye ike otu ụzọ ma ọ bụ abụọ mgbe agbanyere ya mbụ.
The switched electrical outlets on the TDC5 rear panel must always be treated as on whenever the TDC5 is powered. Remove the TDC5 line cord if you must work with a wire in contact with these outlets. Do not trust that the control signals for these outlets, when off, remains off. Do not touch any wire connected to these outlets unless the TDC5 line cord has been disconnected.

Nchekwa okpomọkụ
The TDC5 Temperature Controller is often used to control an electrical heating apparatus that is located on or close to an electrochemical cell filled with electrolyte. This can represent a significant safety hazard unless care is taken to ensure that the heater has no exposed wires or contacts.

An AC-powered heater connected to a cell containing electrolyte can represent a significant electrical-shock hazard. Make sure that there are no exposed wires or connections in your heater circuit. Even cracked insulation can be a real hazard when salt water is spilled on a wire.

8

Atụmatụ nchekwa
RFI ịdọ aka ná ntị
Ihe njikwa okpomọkụ TDC5 gị na-ewepụta, na-eji, ma nwee ike ịgbanye ume ugboro redio. Ọkwa ndị na-egbuke egbuke dị ala nke na TDC5 ekwesịghị iweta nsogbu nnyonye anya n'ọtụtụ gburugburu ụlọ nyocha ụlọ ọrụ mmepụta ihe. TDC5 nwere ike bute nnyonye anya ugboro redio ma ọ bụrụ na ejiri ya na gburugburu ebe obibi.
Eletrịkị na-enwe mmetụta uche ogologo oge
Emebere TDC5 njikwa okpomoku gị ka ọ na-enye nchebe ezi uche dị na ya site na transients eletriki. Otú ọ dị, n'ọnọdụ ndị siri ike, TDC5 nwere ike ịrụ ọrụ nke ọma ma ọ bụ ọbụna nwee mmebi site na ọkụ eletrik. Ọ bụrụ na ị na-enwe nsogbu na nke a, usoro ndị a nwere ike inye aka:
Ọ bụrụ na nsogbu ahụ bụ ọkụ eletrik kwụ ọtọ (ọkụ na-apụta ìhè mgbe ị metụrụ TDC5: o Ịtụnye TDC5 gị n'elu ebe ọrụ na-achịkwa static nwere ike inye aka. Ọ bụrụ na nsogbu ahụ bụ ọkụ eletrik, a na-enwetakarị ụlọ ọrụ kọmputa na ndị na-ebu ngwá electronic. Ute ala nwekwara ike inye aka, karịsịa ma ọ bụrụ na kapeeti na-etinye aka na ịmepụta ọkụ eletrik.tage dị na nkwụsịtụ kwụ ọtọ.
Ọ bụrụ na nsogbu ahụ bụ transients AC power-line transients (na-emekarị site na nnukwu igwe eletrik dị nso na TDC5): o Gbalịa itinye TDC5 gị n'ime sekit alaka ụlọ ọrụ AC dị iche. o Tinye TDC5 gị n'ime ihe nkwụnye ọkụ ọkụ. Ndị na-egbochi ịwa ahụ dị ọnụ ala dị ugbu a n'ihi ojiji ha na ngwa kọmputa.
Kpọtụrụ Gamry Instruments, Inc. ma ọ bụrụ na usoro ndị a anaghị edozi nsogbu ahụ.
9

Nwụnye
Isi nke 2: Nwụnye
This chapter covers normal installation of the TDC5 Temperature Controller. The TDC5 was designed to run the experiments in the Gamry Instruments CPT Critical Pitting Test System, but it is also useful for other purposes. The TDC5 is an Omega Engineering Inc., Model CS8DPT Temperature Controller. Please review Ntuziaka Onye ọrụ Omega ka ịmara onwe gị na ọrụ nke njikwa okpomọkụ.
Nleba anya nke izizi
After you remove your TDC5 from its shipping carton, check it for any signs of shipping damage. If any damage is noted, please notify Gamry Instruments, Inc., and the shipping carrier immediately. Save the shipping container for possible inspection by the carrier.
The protective grounding can be rendered ineffective if the TDC5 is damaged in shipment. Do not operate damaged apparatus until its safety has been verified by a qualified service technician. Tag TDC5 mebiri emebi iji gosi na ọ nwere ike ịbụ ihe egwu nchekwa.

Iwepu TDC5 gị
Ekwesịrị ịnye ndepụta ihe ndị a na TDC5 gị: Tebụl 2
Packing list for Gamry TDC5 (modified Omega CS8DPT) with Gamry P/N 992-00143

Nke 1
4 1
1 1 1 1 1 2 1

Gamry P/N 988-00072 990-00481
630-00018 990-00491
720-00078 721-00016 952-00039 985-00192 990-00055 –

Omega P/N M4640

Description Gamry TDC5 Operator’s Manual Fuse Kit – 5X20, 250V, 5A Fast-Blow Fuse – 5X20, 250V, 5A Fast-Blow Gamry TDC5 (modified Omega CS8DPT) Main Power Cord (USA version) TDC5 Adapter for RTD cable Omega CS8DPT USB 3.0 type A male/male cable, 6 ft RTD Probe Omega Output Cords Omega User’s Guide

Kpọtụrụ onye nnọchi anya Gamry Instruments mpaghara gị ma ọ bụrụ na ịnweghị ike ịhụ ihe ọ bụla n'ime ihe ndị a n'ime akpa mbupu gị.
Ọnọdụ anụ ahụ
Ị nwere ike idowe TDC5 gị n'elu ebe ọrụ nkịtị. Ị ga-achọ ịnweta azụ nke ngwá ọrụ n'ihi na njikọ ike sitere n'azụ. Ejideghị TDC5 ka ọ rụọ ọrụ n'ọnọdụ dị larịị. Ị nwere ike rụọ ya n'akụkụ ya, ma ọ bụ ọbụna n'elu ala.

11

Nwụnye
Ọdịiche dị n'etiti Omega CS8DPT na TDC5
Esemokwu ngwaike
Ngwa TDC5 Gamry nwere otu mgbakwunye ma e jiri ya tụnyere Omega CS8DPT na-agbanweghị agbanwe: A na-agbakwunye njikọ ọhụrụ n'ihu panel. Ọ bụ njikọ ntụtụ atọ eji eme waya 100 platinum RTD atọ. Njikọ RTD na-ejikọta ya na eriri ntinye ntinye na Omega CS8DPT. Ị ka nwere ike iji njikọ ntinye zuru oke.
If you make other input connections: · Be careful to avoid connecting two input devices, one to the 3-pin Gamry connector and one to the terminal strip. Unplug the RTD from its connector if you connect any sensor to the input terminal strip. · You must reconfigure the controller for the alternate input. Consult the Omega manual for additional details.
Ọdịiche Firmware
A na-agbanwe ntọala ntọala firmware maka PID (nha nhata, ntinye na ihe nrụpụta) na TDC5 site na ndabara Omega. Lee Ihe Odide A maka nkọwa. N'ụzọ bụ isi, ntọala onye njikwa Gamry Instruments gụnyere:
· Configuration for operation with a three-wire 100 platinum RTD as the temperature sensor · PID tuning values appropriate for a Gamry Instruments FlexCellTM with a 300 W heating jacket and active
cooling through the FlexCell’s heating coil.
Njikọ Njikọ AC
Emebere TDC5 ka ọ rụọ ọrụ na eriri AC voltagdị n'etiti 90 na 240 VAC, 50 ma ọ bụ 60 Hz. Ị ga-eji eriri ọkụ AC dabara adaba iji jikọọ TDC5 na isi iyi ike AC gị (mains). Ebutere TDC5 gị na eriri ntinye ike AC ụdị USA. Ọ bụrụ na ịchọrọ eriri ike dị iche, ị nwere ike nweta otu mpaghara ma ọ bụ kpọtụrụ Omega Engineering Inc. (http://www.omega.com).
12

Nwụnye
Ụdọ ọkụ na-eji TDC5 ga-akwụsịrịrị na njikọ nwanyị CEE 22 Standard V na njedebe ngwa nke eriri ma a ga-enwerịrị akara maka ọrụ 10 A.
If you replace the line cord you must use a line cord rated to carry at least 10 A of AC current. An improper line cord can create a safety hazard, which could result in injury or death.
Nyochaa ike elu
Mgbe ejikọrọ TDC5 na AC voltage isi iyi, ị nwere ike ịgbanwuo ya iji nyochaa isi ọrụ ya. Mgbanwe ike bụ nnukwu mgba ọkụ rocker n'akụkụ aka ekpe nke azụ azụ.
Ike
Gbaa mbọ hụ na TDC5 arụnyere ọhụrụ enweghị njikọ na oghere OUTPUT agbanyere mgbe agbanyere ya mbụ. Ịchọrọ ịchọpụta na TDC5 na-akwado nke ọma tupu ịtinye mgbagwoju anya nke ngwaọrụ mpụga. Mgbe agbanyere TDC5, onye na-ahụ maka ọnọdụ okpomọkụ ga-enwu ọkụ wee gosipụta ozi ọkwa abụọ. A ga-egosipụta ozi ọ bụla maka sekọnd ole na ole. Ọ bụrụ na ị jikọọ RTD na unit ahụ, ihe ngosi nke elu kwesịrị igosi ọnọdụ okpomọkụ dị ugbu a na nyocha (nkeji bụ degrees Celsius). Ọ bụrụ na itinyeghị nyocha, ihe ngosi nke elu kwesịrị igosi ahịrị nwere mkpụrụedemede oPER, dịka egosiri n'okpuru:
13

Nwụnye
Mgbe unit gbagoro nke ọma, gbanyụọ ya tupu ịme njikọ sistemu fọdụrụnụ.
eriri USB
Jikọọ eriri USB n'etiti ọdụ ụgbọ mmiri Ụdị-A nke dị n'ihu panel nke TDC5 na ọdụ ụgbọ mmiri Ụdị-A na kọmputa gị. Igwe a na-enye maka njikọ a bụ eriri USB Ụdị-A nwere ngwụcha. Ụdị A bụ njikọ akụkụ anọ ebe ụdị B bụ njikọ USB fọrọ nke nta ka ọ bụrụ square.
Iji njikwa ngwaọrụ iji wụnye TDC5
1. After the TDC5 is plugged into an available USB port on the host computer, turn on the host computer. 2. Log into your user account. 3. Run the Device Manager on your host computer. 4. Expand the Ports section in the Device Manager as shown.
14

Nwụnye
5. Gbanwuo TDC5 wee chọọ ntinye ọhụrụ na-apụta na mberede n'okpuru ọdụ ụgbọ mmiri. Ndenye a ga-agwa gị nọmba COM jikọtara ya na TDC5. Rịba ama nke a maka ojiji mgbe ị na-etinye ngwanrọ Gamry Instruments.
6. If the COM port is higher than number 8, decide on a port number less than 8. 7. Right-click on the new USB Serial Device that appears and select Properties. A USB Serial Device
Properties window like the one shown below appears. Port Settings
Ọganihu 15

Installation 8. Select the Port Settings tab and click the Advanced… button. The Advanced Settings for COMx dialog
box appears as shown below. Here, x stands for the particular port number you chose.
9. Họrọ nọmba ọdụ ụgbọ mmiri COM ọhụrụ site na menu ndọpụta. Họrọ nọmba nke 8 ma ọ bụ obere. Ịkwesighi ịgbanwe ntọala ọ bụla ọzọ. Mgbe ịmechara nhọrọ, cheta nọmba a ị ga-eji n'oge nrụnye Software Gamry.
10. Click the OK buttons on the two open dialog boxes to close them. Close the Device Manager. 11. Proceed with the Gamry Software Installation. Select Temperature Controller in the Select Features
dialog box. Press Next to continue the installation process.
12. N'ime igbe okwu nhazi njikwa okpomọkụ, họrọ TDC5 na menu ndọda n'okpuru Ụdị. Họrọ ọdụ ụgbọ mmiri COM nke ị debanyere na mbụ.
16

Nwụnye
Ogige labelụ ga-enwerịrị aha. TDC bụ ezigbo nhọrọ dabara adaba.
Ijikọ TDC5 na igwe ọkụ ma ọ bụ igwe oyi
Enwere ọtụtụ ụzọ isi kpoo cell electrochemical. Ndị a na-agụnye ikpo ọkụ na-emikpu n'ime electrolyte, teepu kpo oku gburugburu cell, ma ọ bụ uwe mkpuchi ọkụ. Enwere ike iji TDC5 na ụdị ọkụ ọkụ ndị a niile, ọ bụrụhaala na ha na-arụ ọrụ AC.
An AC-powered heater connected to a cell containing electrolyte can represent a significant electrical-shock hazard. Make sure that there are no exposed wires or connections in your heater circuit. Even cracked insulation can be a hazard when salt water is spilled on a wire.
The AC power for the heater is drawn from Output 1 on the rear panel of the TDC5. This output is an IEC Type B female connector (common in the USA and Canada). Electrical cords with the corresponding male connector are available worldwide. An Omega-supplied output cord ending in bare wires was shipped with your unit. Connections to this output cord should be made only by a qualified electrical technician. Please check that the fuse on Output 1 is appropriate for use with your heater. The TDC5 is shipped with a 3 A Output 1 fuse already installed. In addition to controlling a heater, the TDC5 can control a cooling device. The AC power for the cooler is drawn from the outlet labeled Output 2 on the rear of the TDC5. An Omega-supplied output cord ending in bare wires was shipped with your unit. Connections to this output cord should only be made by a qualified electrical technician. The cooling device can be as simple as a solenoid valve in a cold-water line leading to a water jacket surrounding the cell. Another common cooling device is the compressor in a refrigeration unit. Before connecting a cooling device to the TDC5, verify that the Output 2 fuse is the correct value for your cooling device. The TDC5 is shipped with a 5 A Output 2 fuse already installed.
Modifications to the Omega output cables should only be made by a qualified electrician. Improper modifications could create a significant electrical shock hazard.
17

Nwụnye
Ijikọ TDC5 na nyocha RTD
TDC5 ga-enwerịrị ike ịlele okpomọkụ tupu ya enwee ike ịchịkwa ya. TDC5 na-eji platinum RTD tụọ okpomọkụ cell. A na-enye RTD kwesịrị ekwesị na TDC5. Ihe mmetụta a na-agbanye n'ime eriri nkwụnye ewepụtara na TDC5 gị:
Kpọtụrụ Gamry Instruments, Inc. na ụlọ ọrụ US ma ọ bụrụ na ịchọrọ iji dochie RTD nke atọ n'ime sistemụ CPT.
Igwe ekwentị sitere na Potentiostat
TDC5 dị na sistemụ gị anaghị emetụta njikọ eriri cell. A na-eme njikọ ndị a ozugbo site na potentiostat gaa na cell. Biko gụọ akwụkwọ ntuziaka onye ọrụ potentiostat gị maka ntuziaka eriri cell.
Ịtọlite ​​​​Ụdị Ọrụ TDC5
Onye na-ahụ maka PID wuru n'ime TDC5 nwere ọtụtụ ụdị ọrụ dị iche iche, nke ọ bụla a na-ahazi nke ọ bụla site na paramita ntinye onye ọrụ.
Please refer to the Omega documentation supplied with your TDC5 for information about the various controller parameters. Do not change a parameter without some knowledge of that parameter’s effect on the controller.
The TDC5 is shipped with default settings appropriate for heating and cooling a Gamry Instruments FlexCell using a 300 W heating jacket and a solenoid-controlled cold-water flow for cooling. Appendix A lists the factory TDC5 settings.
Na-enyocha ọrụ TDC5
Iji lelee ọrụ TDC5, ị ga-edozirịrị cell electrochemical gị kpamkpam, gụnyere ọkụ (na ikekwe usoro jụrụ oyi). Mgbe ịmechara nhazi a zuru oke, mee TDC Set Temperature.exp script. Rịọ maka ọnọdụ okpomọkụ dị ntakịrị karịa okpomọkụ ụlọ (mgbe ọ na-adịkarị 30 Celsius C bụ ezigbo ntọala). Rịba ama na okpomọkụ a hụrụ na ngosi ga-awagharị ntakịrị n'elu na n'okpuru ọnọdụ okpomọkụ.
18

TDC5 Jiri

Isi nke 3: TDC5 Jiri
Isiakwụkwọ a kpuchiri ojiji nke TDC5 njikwa okpomọkụ. Ezubere TDC5 nke ọma maka ojiji na Gamry Instruments CPT Critical Pitting Test System. O kwesịkwara igosi na ọ bara uru na ngwa ndị ọzọ.
TDC5 dabere na Omega CS8DPT njikwa okpomọkụ. Biko gụọ akwụkwọ Omega ka ịmata onwe gị maka ọrụ nke ngwa a.

Iji script Framework ka ịtọlite ​​na jikwaa TDC5 gị
For your convenience, the Gamry Instruments FrameworkTM software includes several ExplainTM scripts that simplify setup and tuning of the TDC5. We strongly recommend that you use the scripts to tune your TDC5. These scripts include:

TDC5 edemede Malite Nchekwa onwe Tune.exp TDC Tọọ Temperature.exp

Nkọwa
A na-eji ịmalite usoro nhazi akpaaka nke njikwa na-agbanwe Ntọala Ntọala nke TDC mgbe edemede ndị ọzọ anaghị arụ ọrụ.

Enwere otu ihe dị njọ na iji edemede ndị a. Ha na-agba naanị na kọmpụta nwere Gamry Instruments potentiostat arụnyere na sistemụ ma jikọọ ya ugbu a. Ọ bụrụ na ịnweghị potentiostat na sistemụ, edemede ahụ ga-egosi ozi njehie wee kwụsị tupu o wepụta ihe ọ bụla na TDC5.

Ị nweghị ike ịme edemede TDC5 ọ bụla na kọmputa nke na-agụnyeghị Gamry Instruments potentiostat.

Nhazi okpomọkụ nke nnwale gị
The TDC5 is used to control the temperature of an electrochemical cell. It does so by turning on and off a heat source that transfers heat to the cell. Optionally, a cooler can be used to remove heat from the cell. In either case, the TDC5 switches AC power to the heater or cooler to control the direction of any transfer of heat.
The TDC5 is a closed-loop system. It measures the temperature of the cell and uses feedback to control the heater and cooler.
Two major thermal problems are present to some degree in all system designs:
· The first problem is temperature gradients in the cell which are invariably present. However, they can be minimized by proper cell design:
o Stirring the electrolyte helps a great deal.
o The heater should have a large area of contact with the cell. Water jackets are good in this regard. Cartridge type heaters are poor.
o Mkpuchi gburugburu cell nwere ike ibelata inhomogeneities site n'ibelata mfu okpomọkụ site na mgbidi cell. Nke a bụ eziokwu karịsịa n'akụkụ electrode na-arụ ọrụ, nke nwere ike ịnọchite anya isi ụzọ nke ịgbanarị okpomọkụ. Ọ bụghị ihe ọhụrụ ịhụ okpomọkụ electrolyte n'akụkụ electrode na-arụ ọrụ 5C dị ala karịa nke nnukwu electrolyte.
o Ọ bụrụ na ịnweghị ike igbochi inhomogeneities thermal, ị nwere ike belata ma ọ dịkarịa ala mmetụta ha. Otu ihe dị mkpa nleba anya n'ichepụta bụ ntinye nke RTD eji amata okpomọkụ cell. Debe RTD ka o kwere mee na electrode na-arụ ọrụ. Nke a na-ebelata njehie dị n'etiti ezigbo okpomọkụ na electrode na-arụ ọrụ na ọnọdụ okpomọkụ.
19

TDC5 Jiri
· A second problem concerns the rate of temperature change. o You would like to have the rate of heat transfer to the cell’s contents high, so that changes in the cell’s temperature can be made quickly.
o A more subtle point is that the rate of heat loss from the cell should also be high. If it is not, the controller risks gross overshoots of the set point temperature when it raises the cell temperature.
o Ideally, the system actively cools the cell as well as heats it. Active cooling can consist of a system as simple as tap water flowing through a cooling coil and a solenoid valve.
o Temperature control via an external heater such as a heating mantle is moderately slow. An internal heater, such as a cartridge heater, is often quicker.

Na-emegharị TDC5 njikwa okpomọkụ: gafereview
Closed-loop control systems such as the TDC5 must be tuned for optimal performance. A poorly tuned system suffers from slow response, overshoot, and poor accuracy. The tuning parameters depend greatly on the characteristics of the system being controlled.
The temperature controller in the TDC5 can be used in an ON/OFF mode or a PID (proportional, integral, derivative) mode. The ON/OFF mode uses hysteresis parameters to control its switching. The PID mode uses tuning parameters. The controller in PID mode reaches the set-point temperature quickly without much overshoot and maintains that temperature within a closer tolerance than the ON/OFF mode.

Mgbe a ga-atụgharị
The TDC5 is normally operated in PID (proportional, integrating, derivative) mode. This is a standard method for process-control equipment that allows for rapid changes in the set parameter. In this mode the TDC5 must be tuned to match it to the thermal characteristics of the system that it is controlling.
The TDC5 is shipped in a default for PID-control mode configuration. You must explicitly change it to operate in any other control mode.
The TDC5 is initially configured with parameters appropriate for a Gamry Instruments FlexCellTM heated with a 300 W jacket and cooled using solenoid-valve controlling water-flow through a cooling coil. The tuning settings are described below:
Tebụl 3 Ntọala nlegharị anya n'ụlọ ọrụ

Parameter (Akara ngosi) Mgbakọ nhata 1 Tọgharia ọnụ ọgụgụ 1 Oge okirikiri 1 Band nwụrụ anwụ

Ntọala 9°C 685 s 109 s 1 s 14 dB

Retune your TDC5 with your cell system before you use it to run any real tests. Retune whenever you make major changes in the thermal behavior of your system. Typical changes that may require retuning include:
· Ịgbanwe gaa na cell dị iche.
· Mgbakwunye mkpuchi ọkụ na cell.
· Mgbakwunye nke ikuku jụrụ oyi.

20

TDC5 Use · Changing the position or power of the heater. · Changing from an aqueous electrolyte to an organic electrolyte. In general, you do not have to retune when switching from one aqueous electrolyte to another. Tuning is therefore only an issue when you first set up your system. After the controller has been tuned for your system, you may ignore tuning as long as your experimental setup remains relatively constant.
Na-emegharị akpaaka TDC5
Mgbe ị na-emegharị ekwentị gị na-akpaghị aka, ọ ga-abụrịrị na ọ ga-ahazi nke ọma iji mee ule. Ma e nwere otu ewepu. Ịchọghị otu electrode na-arụ ọrụ (metal sample) eji na ule gị. Ị nwere ike iji metal sample.
1. Jupụta cell gị na electrolyte. Jikọọ ngwaọrụ niile na-ekpo ọkụ na nke jụrụ oyi n'otu aka ahụ ejiri na ule gị.
2. The first step in the tuning process is to establish a stable baseline temperature: a. Run the Framework software. b. Select Experiment > Named Script… > TDC Set Temperature.exp c. Set a baseline temperature. If you are uncertain what temperature to enter, choose a value slightly above the room temperature of your laboratory. Often a reasonable choice is 30°C. d. Click the OK button. The script terminates after changing the TDC Setpoint. The Setpoint display should change to the temperature you entered. e. Observe the TDC5 process temperature display for a couple of minutes. It should approach the Setpoint and then cycle to values both above and below that point. On an untuned system, the temperature deviations around the Setpoint can be 8 or 10°C.
3. The next step in the tuning process applies a temperature step to this stable system: a. From the Framework software, select Experiment > Named Script… > TDC5 Start Auto Tune.exp. On the resulting Setup box, click the OK button. After a few seconds, you should see a Runtime Warning window like the one below.
b. Click the OK button to continue. c. The TDC5 display may blink for several minutes. Do not interrupt the auto-tune process. At the
end of the blinking period, the TDC5 eithers display doNE, or an error code. 21

TDC5 Use 4. If auto-tune is successful, the TDC5 displays doNE. Tuning can fail in several ways. Error code 007 is
displayed when the Auto Tune is unable to raise the temperature by 5°C within the 5 minutes allowed for the tuning process. Error code 016 is displayed when auto-tune detects an unstable system prior to applying the step. 5. If you do see an error, repeat the process of setting the baseline and try auto-tune a couple more times. If the system still does not tune, you may need to change the thermal characteristics of your system.
22

Nhazi onye njikwa akpaghị aka

Ihe mgbakwunye A: Nhazi onye njikwa ọpụrụiche

Ụdị mmalite menu

Ọkwa 2 INPt

Ọkwa 3 tC
Ndi Ikuku
THRM PC

Ọkwa 4 Ọkwa 5 Ọkwa 6 Ọkwa 7 Ọkwa 8 ndetu

k

Ụdị K thermocouple

J

Ụdị J thermocouple

t

Ụdị T thermocouple

E

Ụdị E thermocouple

N

Ụdị N thermocouple

R

Ụdị R thermocouple

S

Pịnye S thermocouple

b

Ụdị thermocouple B

C

Ụdị C thermocouple

N.wIR

3 wI

3-waya RTD

4 wI

4-waya RTD

A.CRV
2.25k 5k 10k
4

2 wI 385.1 385.5 385.t 392 391.6

2-waya RTD 385 calibration curve, 100 385 calibration curve, 500 385 calibration curve, 1000 392 calibration curve, 100 391.6 calibration curve, 100 2250 thermistor 5000 thermistor 10,000

Note: This Live Scaling submenu is the same for all PRoC ranges

MANL Rd.1

Ọgụgụ ngosi dị ala

23

Nhazi onye njikwa akpaghị aka

Ọkwa 2
TARE LINR RdG

Ọkwa 3
dSbL ENbL RMt N.PNt MANL LIVE dEC.P °F°C d.RNd FLtR

Ọkwa 4 Ọkwa 5 Ọkwa 6 Ọkwa 7 Ọkwa 8 ndetu

Rd.2

Ọgụgụ ngosi dị elu

LIVE

Rd.1

Ọgụgụ ngosi dị ala

N'ime.1

Ntinye Live Rd.1, ENTER maka ugbu a

Rd.2

Ọgụgụ ngosi dị elu

IN.2 0

Ntinye Live Rd.2, ENTER maka oke ntinye usoro ugbu a: 0 ruo 24 mA

+ -10

Oke ntinye usoro: -10 ruo +10 V

Mara: +- 1.0 na +-0.1 na-akwado SNGL, dIFF na RtIO tYPE

+ -1

ụdị

SNGL

Oke ntinye usoro: -1 ruo +1 V

dIFF

Ọdịiche dị n'etiti AIN + na AIN-

RtLO

Oke-metric n'etiti AIN+ na AIN-

+ -0.1

Oke ntinye usoro: -0.1 ruo +0.1 V

Mara: Ntinye +- 0.05 na-akwado dIFF na RtIO tYPE

+ -.05

ụdị

dIFF

Ọdịiche dị n'etiti AIN + na AIN-

RtLO

Ratiometric n'etiti AIN+ na AIN-

Oke ntinye usoro: -0.05 ruo +0.05 V

Gbanyụọ atụmatụ taARE

Kwado taARE na menu oPER

Kwado taARE na oPER na ntinye dijitalụ

Na-akọwapụta ọnụọgụ isi ihe ị ga-eji

Note: The Live inputs repeat from 1..10, represented by n

Rd.n

Ọgụgụ ngosi dị ala

Rd.n

Ọgụgụ ngosi dị ala

IN.n

Ntinye Live Rd.n, ENTER maka ugbu a

FFF.F

Ọkpụkpọ ọgụgụ -999.9 ruo +999.9

FFFF

Ọkpụkpọ ọgụgụ -9999 ruo +9999

FF.FF

Ọkpụkpọ ọgụgụ -99.99 ruo +99.99

F.FFF

Ọkpụkpọ ọgụgụ -9.999 ruo +9.999

Celsius C

Degree Celsius annunciator

°F

Degree Fahrenheit annunciator

Ọ BỤGHỊ

Gbanyụọ maka nkeji na-abụghị okpomọkụ

Gosipụta Gburugburu

8

Ọgụgụ kwa ọnụ ahịa egosiri: 8

16

16

24

Nhazi onye njikwa akpaghị aka

Ọkwa 2
Ụlọ ọrụ ECTN COMM

Ọkwa 3 Ọkwa 4 Ọkwa 5 Ọkwa 6 Ọkwa 7 Ọkwa 8 ndetu

32

32

64

64

128

128

1

2

2

3

4

4

ANN.n

ALM.1 ALM.2

Note: Four-digit displays offer 2 annunciators, 6-digit displays offer 6 Alarm 1 status mapped to “1” Alarm 2 status mapped to “1”

pụọ#

Wepụta nhọrọ steeti site n'aha

NCLR

GRN

Agba ngosi izizi: Green

Uhie

Uhie

AmbR

Amber

BRGt Elu

Ngosipụta dị elu

MED

Ngosipụta nchapụta

Dị ala

Ngosipụta dị ala

5 V

Ihe mkpali voltagE: 5V

10 V

10 V

12 V

12 V

24 V

24 V

0 V

Agbanyụrụ obi ụtọ

USB

Hazie ọdụ ụgbọ mmiri USB

Cheta na: Nke a n'okpuru Prot bụ otu maka USB, Ethernet, na Serial ọdụ ụgbọ mmiri.

PROT

oMEG ModE dAt.F

CMd Cont Stat

Chere iwu sitere na nsọtụ ọzọ
Nyefee oge niile ###.# nkeji ọ bụla
Mba

yES gụnyere bytes ọkwa mkpu

RdNG

yES na-agụnye ịgụ usoro

Mba

Ọnụ ọgụgụ kasị elu

Mba

yES Gụnyere ọgụgụ usoro kachasị elu

VALy

Mba

yES Includes lowest process reading

UNit

Mba

25

Nhazi onye njikwa akpaghị aka

Ọkwa 2

Ọkwa 3
EthN SER

Ọkwa 4
AddR Prot AddR Prot C.PAR

Ọkwa 5
M.bUS bUS.F bAUd

Level 6 _LF_ ECHo SEPR RtU ASCI
232C 485 19.2

Ọkwa 7
Mba ee ee ee e _CR_ SCE

Level 8 Notes yES Send unit with value (F, C, V, mV, mA)
Na-agbakwunye ndepụta ahịrị mgbe ọ bụla zipụrụ iwu natara mbufe
Carriage nlaghachite separator na Cont Space separator na Cont Mode Standard Modbus protocol Omega ASCII protocol USB chọrọ Adreesị Ethernet ọdụ ụgbọ mmiri Ethernet “Telnet” na-achọ okwu Serial ọdụ ụgbọ mmiri nhazi otu ngwaọrụ Serial Comm Mode Multiple ngwaọrụ Serial Comm Mode Baud ọnụego: 19,200 Bd

9600 4800 2400

1200 57.6

115.2

PRty

dị iche

Ọ BỤLA

Ọ BỤGHỊ

gbanyụọ

dAtA

8bIt

7bIt

Kwụsị

1bIt

2bIt

AddR

SFty

PwoN

RSM

26

9,600 Bd 4,800 Bd 2,400 Bd 1,200 Bd 57,600 Bd 115,200 Bd Odd parity check used Even parity check used No parity bit is used Parity bit is fixed as a zero 8-bit data format 7-bit data format 1 stop bit 2 stop bits gives a “force 1” parity bit Address for 485, placeholder for 232 RUN on power up if not previously faulted

Nhazi onye njikwa akpaghị aka

Ọkwa 2
SAVE LoAd VER.N VER.U F.dFt I.Pwd

Level 3 RUN.M SP.LM SEN.M
Mpụ.M
1.PNt 2.PNt ICE.P _____ _____ 1.00.0
ok? ok? No

Level 4 wAIt RUN dSbL ENbL SP.Lo SP.HI
LPbk
o.CRk
E.LAt
nke 1
oUt2 oUt3 E.LAt
R.Lo R.HI oke? dSbL

Ọkwa 5
dSbL ENbL ENbl dSbL ENbl dSbL o.bRk
ENbl dSbL

Ọkwa 6
dSbL ENbl

Ọkwa 7
P.dEV P.tME

Level 8 Notes Power on: oPER Mode, ENTER to run RUN’s automatically on power up ENTER in Stby, PAUS, StoP runs ENTER in modes above displays RUN Low Setpoint limit High Setpoint limit Sensor Monitor Loop break timeout disabled Loop break timeout value (MM.SS) Open Input circuit detection enabled Open Input circuit detection disabled Latch sensor error enabled Latch sensor error disabled Output Monitor oUt1 is replaced by output type Output break detection Output break detection disabled Output break process deviation Output break time deviation oUt2 is replaced by output type oUt3 is replaced by output type Latch output error enabled Latch output error disabled Set offset, default = 0 Set range low point, default = 0 Set range high point, default = 999.9 Reset 32°F/0°C reference value Clears the ICE.P offset value Download current settings to USB Upload settings from USB stick Displays firmware revision number ENTER downloads firmware update ENTER resets to factory defaults No required password for INIt Mode

27

Nhazi onye njikwa akpaghị aka

Level 2 P.Pwd

Level 3 yES No yES

Level 4 _____
_____

Ọkwa 5

Ọkwa 6

Ọkwa 7

Level 8 Notes Set password for INIt Mode No password for PRoG Mode Set password for PRoG Mode

NchNhr ụdị mmemme

Ọkwa 2 Ọkwa 3 Ọkwa 4 Ọkwa 5 Ọkwa 6 ndetu

SP1

Ebumnuche usoro maka PID, ebumnuche ndabara maka on.oF

SP2

ASbo

Uru Setpoint 2 nwere ike soro SP1, SP2 bụ uru zuru oke

dEVI

SP2 bụ uru ngbanwe

ALM.1 Cheta: Nke a submenu bụ otu ihe ndị ọzọ niile nhazi mkpu.

ụdị

gbanyụọ

A naghị eji ALM.1 maka ngosipụta ma ọ bụ mpụta

N'elu V

Mkpu: uru usoro dị n'elu mkpalite mkpu

belo

Mkpu: uru usoro n'okpuru mkpalite mkpu

HI.Lo.

Mkpu: uru usoro na-abụghị Mkpu na-akpalite

bAND

Mkpu: uru usoro n'etiti ihe na-akpalite mkpu

Ab.dV AbSo

Ụdị zuru oke; jiri ALR.H na ALR.L dị ka ihe na-akpalite

d.SP1

Deviation Mode: triggers are deviations from SP1

d.SP2

Deviation Mode: triggers are deviations from SP2

CN.SP

Na-esochi Ramp & Tinye ebe ntọala ozugbo

ALR.H

Oti mkpu maka mgbako mkpalite

ALR.L

Oti mkpu maka mgbako mkpalite

A.CLR

Uhie

Ngosipụta uhie mgbe mkpu na-arụ ọrụ

AmbR

Ngosipụta amber mgbe mkpu na-arụ ọrụ

dEFt

Agba anaghị agbanwe maka Mkpu

HI.HI

gbanyụọ

Agbanyụrụ ụkpụrụ mkpu dị elu / dị ala

GRN

Ngosipụta akwụkwọ ndụ akwụkwọ ndụ mgbe mkpu na-arụ ọrụ

oN

Uru mwepu maka ọnọdụ dị elu / dị ala na-arụ ọrụ

LtCH

Mba

Oti mkpu anaghị egbochi

ee

Oti mkpu ruo mgbe ewepụrụ site na panel ihu

abua

Mkpọchi mkpu, kpochapụrụ site na panel ihu ma ọ bụ ntinye dijitalụ

RMt

Oti mkpu ruo mgbe ewepụtara ya site na ntinye dijitalụ

CtCL

Mba

Eji Mkpu rụọ ọrụ mmepụta

NC

Eji Oti mkpu kwụsịrị mmepụta

APON

ee

Mkpu na-arụ ọrụ na ọkụ

28

Nhazi onye njikwa akpaghị aka

Ọkwa 2 Ọkwa 3 Ọkwa 4 Ọkwa 5 Ọkwa 6 ndetu

Mba

Oti mkpu anaghị arụ ọrụ na ọkụ

dE.oN

Nkwụsị oge ịgbanyụ oti mkpu (sk), ndabara = 1.0

dE.oF

Nkwụsị oge ịgbanyụ oti mkpu (sk), ndabara = 0.0

ALM.2

Mkpu 2

nke 1

Ụdị mmepụta dochie oUt1

Cheta na: Nke a submenu bụ otu ihe ndị ọzọ niile mmepụta.

Ụdị E

gbanyụọ

Mmepụta anaghị eme ihe ọ bụla

PId

Ụdị njikwa PID

ACtN RVRS Agbanwe njikwa njikwa (ọkụ)

dRCt Direct eme njikwa (ịjụ oyi)

RV.DR Reverse/ Direct eme njikwa (ọkụ / jụrụ oyi)

PID.2

Ụdị njikwa PID 2

ACtN RVRS Agbanwe njikwa njikwa (ọkụ)

dRCt Direct eme njikwa (ịjụ oyi)

RV.DR Reverse/ Direct eme njikwa (ọkụ / jụrụ oyi)

oN.oF ACtN RVRS Gbanyụọ mgbe> SP1, na mgbe <SP1

dRCt Gbanyụọ mgbe <SP1, na mgbe> SP1

dEAd

Uru nke deadband, ndabara = 5

S.PNt

Enwere ike iji SP1 ma ọ bụ gbanyụọ ntọala, ndabara bụ SP1

SP2 Ịkọwa SP2 na-enye ohere ka ịtọpụta mmepụta abụọ maka ikpo ọkụ / oyi

ALM.1

Mpụta bụ mkpu na-eji nhazi ALM.1

ALM.2

Mpụta bụ mkpu na-eji nhazi ALM.2

RtRN

Rd 1

Usoro uru maka oUt1

nke 1

Uru mbupute maka Rd1

Rd 2

Usoro uru maka oUt2

RE.oN

Tinye ọrụ n'oge Ramp ihe omume

SE.oN

Tinye ọrụ n'oge mmemme Soak

SEN.E

Mee ka ọ rụọ ọrụ ma ọ bụrụ na achọpụtara mperi sensọ ọ bụla

OPL.E

Mee ka ọ rụọ ọrụ ma ọ bụrụ na mmepụta ọ bụla mepere akaghị

CyCL

RNGE

0-10

obosara usu PWM n'ime sekọnd Analog Mmepụta Oke: 0 Volts

oUt2 0-5 0-20

Output value for Rd2 0­5 Volts 0­20 mA

29

Nhazi onye njikwa akpaghị aka

Ọkwa 2 Ọkwa 3 Ọkwa 4 Ọkwa 5 Ọkwa 6 ndetu

4-20

4mA

0-24

0mA

nke 2

Ụdị mmepụta dochie oUt2

nke 3

Ụdị mmepụta dochie oUt3 (1/8 DIN nwere ike inwe ruo 6)

PId

Ụlọ ọrụ ACtN RVRS

Mmụba na SP1 (ya bụ, kpo oku)

dRCt

Wedata ruo SP1 (ya bụ, jụrụ oyi)

RV.DR

Increase or decrease to SP1 (i.e., heating/cooling)

A. na

Tọọ oge nkwụsịtụ maka nhazigharị

TUNE

StRt

Na-amalite imezigharị mgbe nkwenye StRt gasịrị

rCg

Uru dị jụụ dị ka (ụdị ikpo oku / oyi)

nke Fst

Ejikwa njikwa

dEAd

Ejikwa eriri ndị nwụrụ anwụ/njikọ (na ngalaba nhazi)

% Lo

Obere clampOke maka Pulse, Mpụta Analog

%HI

Elu clampOke maka Pulse, Mpụta Analog

AdPt

ENbL

Kwado nlegharị anya mgbagharị mgbagha na-enweghị isi

dSbL

Gbanyụọ ntuzigharị mgbagha mgbagha na-enweghị isi

PId.2 Cheta: Nke a menu bụ otu maka menu PID.

RM.SP

gbanyụọ

oN

4

Jiri SP1, ọ bụghị nke dịpụrụ adịpụ Setpoint Remote analog Input sets SP1; ogologo: 4mA

Cheta na: Nke a submenu bụ otu ihe niile RM.SP ranges.

RS.Lo

Min Setpoint maka oke nhabara

IN. Lo

Ọnụ ahịa ntinye maka RS.Lo

RS.HI

Oke Setpoint maka oke nhabara

0 24

IN.HI

Ọnụ ego ntinye maka RS.HI 0 mA 24 V

M.RMP R.CtL

Mba

Multi-Ramp/ Gbanyụọ ọnọdụ

ee

Multi-Ramp/Ọnọdụ n'ụba na

RMt S.PRG

M.RMP on, start with digital input Select program (number for M.RMP program), options 1­99

M.tRk

RAMP 0

Ekwenyere Ramp: soak SP ga-eru na ramp oge 0v

SoAk CYCL

Mkpịsị aka na-ekwe nkwa: oge ​​mgbụsị akwụkwọ na-echekwa oge niile okirikiri : ramp nwere ike ịgbatị ma oge okirikiri enweghị ike

30

Nhazi onye njikwa akpaghị aka

Ọkwa 2

Level 3 tIM.F E.ACt
N.SEG S.SEG

Ọkwa 4 Ọkwa 5 Ọkwa 6 ndetu

MM:SS
HH:MM
Kwụsị

Note: tIM.F does not appear for 6-digit display that use a HH:MM:SS format “Minutes : Seconds” default time format for R/S programs “Hours : Minutes” default time format for R/S programs Stop running at the end of the program

Jide

Gaa n'ihu jide n'aka na nsonye ikpeazụ na njedebe mmemme

njikọ

Malite kpọmkwem ramp & soak mmemme na ngwụcha mmemme

1 ruo 8 RampNkeji akụkụ (8 ọ bụla, 16 ngụkọta)

Họrọ nọmba akụkụ iji dezie, ntinye dochie # n'okpuru

MRt.#

Oge maka Ramp nọmba, ndabara = 10

MRE.# gbanyụọ Ramp ihe omume maka ngalaba a

na Ramp ihe omume kwụsịrị maka ngalaba a

MSP.#

Uru setịpụrụ maka nọmba Soak

MSt.#

Oge maka nọmba Soak, ndabara = 10

MSE.#

Gbanyụọ ihe omume maka akụkụ a

on Soak mmemme maka akụkụ a

Mgbanwe nke Ngwa Ngwa Gamry Mere na Ntọala Nwelite
· Set Omega Protocol, Command Mode, No Line Feed, No Echo, Use <CR> · Set Input Configuration, RTD 3 Wire, 100 ohms, 385 Curve · Set Output 1 to PID Mode · Set Output 2 to On/Off Mode · Set Output 1 On/Off Configuration to Reverse, Dead Band 14 · Set Output 2 On/Off Configuration to Direct, Dead Band 14 · Set Display to FFF.F degrees C, Green Color · Set Point 1 = 35 degrees C · Set Point 2 = 35 degrees C · Set Proportional Band to 9C · Set Integral factor to 685 s · Set Derivative factor Rate to 109 s · Set Cycle time to 1 s

31

Appendix B: Index
AC line cord, 7 AC Outlet Fuses, 8 Advanced Settings for COM, 16 Advanced…, 16 Auto Tuning the TDC5, 23 baseline temperature, 23 cable, 7, 13, 18 CEE 22, 7, 13 Cell Cables, 18 COM port, 15, 16 COM Port Number, 16 computer, 3 Control Panel, 14 cooler, 17 cooling device, 17 CPT Critical Pitting Test System, 11, 21 CS8DPT, 7, 12, 21 CSi32, 11 Device Manager, 14, 16 doNE, 23 electrical transients, 9 Error code 007, 24 Error code 016, 24 ExplainTM scripts, 21 FlexCell, 12, 18, 22 FrameworkTM software, 21 fuse
ngwa nju oyi, 17
kpo oku, 17
Ngwa Ngwa Gamry, Igwe ọkụ 16, 8, 17, 21, 23 kọmpụta onye nnabata, 14 Ọnọdụ mmalite, nyocha 25, akara 7, eriri 17 vol.tages, 8, 12 oPER, 13 Output 1, 17 Output 2, 17 Parameters
Na-arụ ọrụ, 22
part list, 11 physical location, 11 PID, 12, 18, 22 polarity, 7 Port Settings, 16 Ports, 14 potentiostat, 18, 21 power cord, 11 power line transient, 9

Index
power switch, 13 Programming Mode, 30 Properties, 15 RFI, 9 RTD, 11, 12, 13, 18, 21 Runtime Warning window, 23 safety, 7 Select Features, 16 shipping damage, 7 static electricity, 9 support, 3, 9, 11, 18 TDC Set Temperature.exp, 21, 23 TDC5
Cell Connections, 17 Checkout, 18 Operating Modes, 18 Tuning, 22 TDC5 adapter for RTD, 11 TDC5 Start Auto Tune.exp, 21 TDC5 Use, 21 telephone assistance, 3 Temperature Controller, 16 Temperature Controller Configuration, 16 Thermal Design, 21 Type, 16 unpacking, 11 USB cable, 11, 14 USB Serial Device, 15 USB Serial Device Properties, 15 Visual Inspection, 11 Warranty, 3 Windows, 4
33

Akwụkwọ / akụrụngwa

GAMRY TDC5 Temperature Controller [pdf] Akwụkwọ ntuziaka TDC5 Temperature Controller, TDC5, Temperature Controller, Controller

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