TDC5 Suhu Controller

“

Émbaran produk

spésifikasi

• Product: TDC5 Temperature Controller
• Produsén: Gamry Instruments, Inc.
• Garansi: 2 taun ti tanggal pangiriman aslina
• Rojongan: Bantuan telepon bébas pikeun instalasi, pamakéan, jeung
  tuning

Parentah Pamakéan Produk

Pamasangan

Ensure you have the instrument model and serial numbers
sadia pikeun rujukan.

Visit the support page at https://www.gamry.com/support-2/ for
inpo instalasi.

Operasi

If experiencing issues, contact support via phone or email with
rinci diperlukeun.

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

Pangropéa

Regularly check for software updates on the support page
disadiakeun.

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

FAQ

Q: Naon periode jaminan pikeun Suhu TDC5
Controller?

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

Q: Kumaha carana abdi tiasa ngahontal rojongan customer?

A: You can contact support via phone at 215-682-9330 or
bébas-tol di 877-367-4267 during US Eastern Standard Time.

Q: Naon anu katutupan dina jaminan kawates?

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

“`

Manual Operator TDC5 Temperatur Controller
Copyright © 2019­2025 Gamry Instruments, Inc. Revision 1.5.2 July 28, 2025 988-00072

Lamun Anjeun Boga Masalah
Lamun Anjeun Boga Masalah
Punten kunjungan halaman jasa sareng dukungan kami di https://www.gamry.com/support-2/. Kaca ieu ngandung inpormasi ngeunaan pamasangan, apdet parangkat lunak, sareng pelatihan. Ogé ngandung tumbu ka dokuméntasi panganyarna sadia. Upami anjeun henteu tiasa mendakan inpormasi anu anjeun peryogikeun ti kami websitus, anjeun tiasa ngahubungan kami via email ngagunakeun link disadiakeun dina kami websitus. Alternatipna, anjeun tiasa ngahubungi kami ku salah sahiji cara ieu:

Telepon Internét

https://www.gamry.com/support-2/
215-682-9330 9:00 AM-5:00 PM (Waktu Standar Wétan AS) 877-367-4267 (Gratis Pulsa AS & Kanada Ngan)

Punten gaduh model alat sareng nomer séri anjeun, ogé révisi parangkat lunak sareng firmware anu tiasa dianggo.
Upami Anjeun gaduh masalah sareng instalasi atawa pamakéan TDC5 Temperature Controller, punten nelepon ti telepon gigireun alat, dimana anjeun bisa ngarobah setelan instrumen bari ngobrol kami.
Kami bagja nyayogikeun tingkat dukungan gratis pikeun pembeli TDC5. Pangrojong anu wajar kalebet bantosan telepon anu ngawengku pamasangan normal, pamakean, sareng tuning saderhana TDC5.
Garansi kawates
Gamry Instruments, Inc. ngajamin ka pangguna asli produk ieu yén éta bakal bébas tina cacad anu disababkeun ku pabrikan produk anu salah atanapi komponénna salami dua taun ti tanggal pangiriman asli pameseran anjeun.
Gamry Instruments, Inc. henteu masihan jaminan ngeunaan kinerja anu nyugemakeun tina Referensi 3020 Potentiostat/Galvanostat/ZRA kalebet parangkat lunak anu disayogikeun sareng produk ieu atanapi kabugaran produk pikeun tujuan anu khusus. Ubar pikeun ngalanggar Jaminan Terbatas ieu kedah diwatesan ngan ukur pikeun ngalereskeun atanapi ngagantian, sakumaha anu ditangtukeun ku Gamry Instruments, Inc., sareng henteu kedah kalebet karusakan anu sanés.
Gamry Instruments, Inc. ngagaduhan hak ngadamel révisi kana sistem iraha waé tanpa ngagaduhan kawajiban pikeun masang anu sami dina sistem anu dibeli sateuacana. Sadaya spésifikasi sistem tiasa robih tanpa aya bewara.
Henteu aya jaminan anu ngalegaan katerangan di dieu. Garansi ieu ngagentos, sareng henteu kalebet naon waé sareng sadaya jaminan atanapi perwakilan sanés, anu dinyatakeun, tersirat atanapi statutory, kalebet kamampuan dagang sareng kabugaran, ogé sagala sareng sadaya kawajiban atanapi kawajiban Gamry Instruments, Inc., kalebet tapi henteu dugi ka , Karuksakan husus atawa consequential.
Garansi Terbatas ieu masihan anjeun hak hukum khusus sareng anjeun tiasa gaduh anu sanés, anu béda-béda ti nagara bagian ka nagara. Sababaraha nagara bagian teu ngidinan pikeun pangaluaran Karuksakan incidental atanapi consequential.
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.
Bantahan
Gamry Instruments, Inc. teu tiasa ngajamin yén TDC5 bakal tiasa dianggo sareng sadaya sistem komputer, pamanas, alat pendingin, atanapi sél.
Inpormasi dina manual ieu parantos dipariksa sacara saksama sareng dipercaya akurat nalika dileupaskeun. Tapi, Gamry Instruments, Inc. teu nanggung jawab pikeun kasalahan anu muncul.

3

Hak cipta
Hak cipta
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.
4

Daptar eusi
Daptar eusi
Lamun Anjeun Boga Masalah …………………………………………………………………………………………………………. 3
Garansi Wates ……………………………………………………………………………………………………………….. 3
Bantahan ……………………………………………………………………………………………………………………… .. 3
Hak Cipta …………………………………………………………………………………………………………… … 4
Daptar eusi…………………………………………………………………………………………………………………………. 5
Bab 1: Pertimbangan Kasalametan ………………………………………………………………………………………………… 7 Inspeksi ………… …………………………………………………………………………………………………………….. 7 Jalur Voltages …………………………………………………………………………………………………………… 8 Saklar AC Outlet Fuses ………………………………………………………………………………………………… 8 TDC5 Kasalametan Outlet Listrik …………… …………………………………………………………………………… 8 Kasalametan Pemanas ………………………………… …………………………………………………………………………… 8 Peringatan RFI………………………………………… ……………………………………………………………………………………….. 9 Sensitipitas Transient Listrik ………………………………… ……………………………………………………… 9
Bab 2: Pamasangan…………………………………………………………………………………………………… 11 Inspeksi Visual Awal………………………………………………………………………………………………………….. 11 Ngabongkar TDC5 Anjeun … ………………………………………………………………………………………………….. 11 Lokasi Fisik ……………………… ………………………………………………………………………………………. 11 Bedana Antara Omega CS8DPT sareng TDC5 ………………………………………………………………… 12 Bedana Hardware ………………………………… ………………………………………………………. 12 Bedana Firmware ………………………………………………………………………………………………….. 12 Sambungan Jalur AC ……… ………………………………………………………………………………………………… 12 Mariksa Power-up …………………… ………………………………………………………………………………………………….. 13 Kabel USB …………………… ………………………………………………………………………………………………….. 14 Ngagunakeun Manajer Alat pikeun Masang TDC5 ……… …………………………………………………………………………….. 14 Nyambungkeun TDC5 ka Pamanas atawa Cooler ……………………… …………………………………………… 17 Nyambungkeun TDC5 ka Panyilidikan RTD ……………………………………………………… ………………………. 18 Kabel Sél tina Potentiostat …………………………………………………………………………………………………….. 18 Nyetél Modeu Operasi TDC5 …………………………………………………………………………….. 18 Mariksa Operasi TDC5……………………………… ………………………………………………………………….. 18
Bab 3: Pamakéan TDC5 ………………………………………………………………………………………………….. 19 Ngagunakeun Framework Scripts pikeun Nyetél jeung Ngadalikeun TDC5 Anjeun ……………………………………………………… 19 Desain Termal tina Percobaan Anjeun ………………………………… ………………………………………………………………… 19 Nyetél Pangontrol Suhu TDC5: Langkungview …………………………………………………………………. 20 When to Tune …………………………………………………………………………………………………………………….. 20 Auto Tuning the TDC5 ………………………………………………………………………………………………………….. 21
Appendix A: Konfigurasi Controller Default ……………………………………………………………………………………….. 23 Menu Mode Initialization ……………………… …………………………………………………………………. 23 Menu Mode Pemrograman …………………………………………………………………………………………………………….. 28 Parobahan anu Dipibogakeun ku Instrumen Gamry Dijieun kana Setélan Default ……………………………………………………….. 31
Appendix B: Index ………………………………………………………………………………………………………………………. 33
5

Pertimbangan Kasalametan
Bab 1: Pertimbangan Kasalametan
Gamry Instrumén TDC5 dumasar kana controller suhu baku, Omega Téknik Nyarita Modél CS8DPT.. Gamry Instrumén geus dipigawé modifikasi slight tina Unit ieu pikeun ngidinan incorporation gampang kana hiji sistem test éléktrokimia. Omega nyayogikeun Pituduh Pamaké anu nyertakeun masalah kaamanan sacara rinci. Dina kalolobaan kasus, informasi Omega henteu duplikat di dieu. Upami anjeun teu gaduh salinan dokumén ieu, hubungi Omega di http://www.omega.com. Controller Suhu TDC5 anjeun parantos disayogikeun dina kaayaan anu aman. Taroskeun kana Pituduh Pamaké Omega pikeun mastikeun operasi anu aman tina alat ieu.
Pamariksaan
Sawaktos Anjeun nampa TDC5 Suhu Controller Anjeun, mariksa eta pikeun bukti karuksakan pengiriman barang. Lamun catetan karuksakan wae, mangga wartosan Gamry Instrumén Inc.. jeung operator pengiriman barang geuwat. Simpen wadahna pengiriman barang pikeun mungkin pamariksaan ku pamawa.
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 a TDC5 ruksak pikeun nunjukkeun yén éta bisa jadi bahya kaamanan.
Sakumaha anu didefinisikeun dina Publikasi IEC 348, Syarat Kasalametan pikeun Alat Ukur Éléktronik, TDC5 mangrupikeun aparat Kelas I. Aparat Kelas I ngan ukur aman tina bahaya kejutan listrik upami pasualan aparatur disambungkeun ka taneuh bumi pelindung. Dina TDC5 sambungan taneuh pelindung ieu dijieun via prong taneuh dina ari garis AC. Nalika anjeun nganggo TDC5 nganggo kabel anu disatujuan, sambungan kana taneuh pelindung sacara otomatis dilakukeun sateuacan ngadamel sambungan listrik.
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.
TDC5 disayogikeun ku kabel garis anu cocog pikeun dianggo di Amérika Serikat. Di nagara-nagara sanés, anjeun panginten kedah ngagentos kabel jalur ku anu cocog pikeun jinis outlet listrik anjeun. Anjeun kudu salawasna ngagunakeun kabel garis kalawan CEE 22 Standar V konektor bikang dina tungtung instrumen kabel. Ieu mangrupikeun konektor anu sami anu dianggo dina kabel garis standar AS anu disayogikeun sareng TDC5 anjeun. Omega Téknik (http://www.omega.com) nyaéta salah sahiji sumber pikeun kabel jalur internasional, sakumaha anu dijelaskeun dina Pituduh Pamakéna.
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.
Polaritasna kabel tina konektor kabel anu leres dipidangkeun dina Tabel 1 pikeun kabel garis AS sareng kabel garis Éropa anu nuturkeun konvénsi kabel "harmonized".
7

Wewengkon AS Éropa

Pertimbangan Kasalametan
meja 1 Polaritasna ari garis tur kelir

Garis Hideung Brown

Nétral Bodas Light Blue

Bumi-Taneuh Héjo Héjo / Konéng

Upami anjeun gaduh mamang ngeunaan kabel garis pikeun dianggo sareng TDC5 anjeun, mangga ngahubungi tukang listrik atanapi teknisi jasa alat pikeun pitulung. Jalma anu mumpuni tiasa ngalakukeun pamariksaan kontinuitas basajan anu tiasa pariksa sambungan sasis TDC5 ka bumi sareng ku kituna mariksa kasalametan pamasangan TDC5 anjeun.
Jalur Voltages
TDC5 dirancang pikeun beroperasi dina garis AC voltages antara 90 jeung 240 VAC, 50 atawa 60 Hz. Taya modifikasi tina TDC5 diperlukeun nalika pindah antara AS jeung internasional AC garis voltages.
Switched AC OutletsFuses
Duanana outlet switched dina tonggong TDC5 boga fuses luhur jeung ka kénca ti outputs. Pikeun Kaluaran 1, rating sekering maksimum anu diidinan nyaéta 3 A; pikeun Kaluaran 2, sekering maksimum anu diidinan nyaéta 5 A.
TDC5 disadiakeun kalawan 3 A jeung 5 A, gancang-niup, 5 × 20 mm sekering dina outlet switched.
Anjeun meureun hoyong ngaropea sekering di unggal outlet pikeun beban ekspektasi. Pikeun example, mun anjeun ngagunakeun 200 W cartridge manaskeun kalawan 120 garis kakuatan VAC, ayeuna nominal bit kirang ti 2 A. Anjeun meureun hoyong make 2.5 A sekering dina stop kontak switched pikeun manaskeun. Ngajaga rating sekering ngan luhureun kakuatan dipeunteun bisa nyegah atawa ngaleutikan ruksakna hiji manaskeun teu bener dioperasikeun.
TDC5 outlet listrik Kasalametan
TDC5 boga dua outlet listrik switched dina panel pungkur tina dipager na. outlet ieu dina kadali modul controller TDC5 urang atawa komputer jauh. Pikeun pertimbangan kaamanan, iraha waé TDC5 diaktipkeun, anjeun kedah ngarawat toko-toko ieu janten on.
Dina kalolobaan kasus, TDC5 kakuatan hiji atawa duanana outlet lamun mimiti powered up.
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.

Pamanas Kasalametan
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

Pertimbangan Kasalametan
Perhatosan RFI
Controller Suhu TDC5 anjeun ngahasilkeun, ngagunakeun, sareng tiasa mancarkeun énergi frekuensi radio. Tingkat radiasi cukup rendah sahingga TDC5 teu kedah aya masalah gangguan dina kalolobaan lingkungan laboratorium industri. TDC5 tiasa nyababkeun gangguan frekuensi radio upami dioperasikeun di lingkungan padumukan.
Sensitipitas transient listrik
Controller Suhu TDC5 anjeun dirarancang pikeun nawiskeun kekebalan anu lumrah tina transients listrik. Sanajan kitu, dina kasus parna, TDC5 bisa malfungsi atawa malah ngalaman karuksakan tina transients listrik. Upami anjeun gaduh masalah dina hal ieu, léngkah-léngkah ieu tiasa ngabantosan:
· Lamun masalahna nyaéta listrik statik (sparks katempo mun anjeun noel TDC5: o Nempatkeun TDC5 anjeun dina permukaan kontrol statik bisa mantuan. surfaces gawé statik-kontrol ayeuna umumna sadia ti imah suplai komputer jeung suppliers alat éléktronik. Hiji antistatic. floor mat ogé bisa mantuan, utamana lamun karpét aub dina ngahasilkeun listrik statik. o Air ionizers atawa malah humidifiers hawa basajan bisa ngurangan volumetage sadia dina discharges statik.
· Upami masalahna nyaéta transién saluran listrik AC (sering tina motor listrik ageung caket TDC5): o Coba colokkeun TDC5 anjeun kana sirkuit cabang kakuatan AC anu béda. o Colokkeun TDC5 anjeun kana suppressor surge saluran listrik. Suppressors surge murah ayeuna umumna sadia kusabab pamakéan maranéhanana jeung alat komputer.
Kontak Gamry Instrumén, Nyarita lamun ukuran ieu teu ngajawab masalah.
9

Pamasangan
Bab 2: Pamasangan
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 nu Omega Pamaké Guide pikeun familiarize diri jeung operasi controller suhu.
Inspeksi Visual Awal
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 a TDC5 ruksak pikeun nunjukkeun yén éta bisa jadi bahya kaamanan.

Ngabongkar TDC5 Anjeun
Daptar item di handap ieu kedah disayogikeun sareng TDC5 anjeun: Tabel 2
Packing list for Gamry TDC5 (modified Omega CS8DPT) with Gamry P/N 992-00143

Jumlah 1 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

Hubungi wawakil Gamry Instruments lokal anjeun upami anjeun teu tiasa mendakan barang-barang ieu dina wadah pengiriman anjeun.
Lokasi fisik
Anjeun tiasa nempatkeun TDC5 anjeun dina permukaan workbench normal. Anjeun peryogi aksés ka tukangeun alat sabab sambungan listrik didamel tina pungkur. TDC5 henteu diwatesan pikeun operasi dina posisi datar. Anjeun tiasa beroperasi dina sisi na, atawa malah tibalik-handap.

11

Pamasangan
Beda Antara Omega CS8DPT sareng TDC5
Bédana Hardware
A Gamry Instrumén TDC5 boga hiji tambahan dibandingkeun Omega CS8DPT unmodified: A konektor anyar ditambahkeun kana panel hareup. Ieu mangrupakeun konektor tilu-pin dipaké pikeun tilu-kawat 100 platinum RTD. Konektor RTD ieu kabel dina paralel jeung strip terminal input dina Omega CS8DPT. Anjeun masih bisa ngamangpaatkeun rentang pinuh ku sambungan input.
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.
Beda firmware
Setélan konfigurasi firmware pikeun PID (proporsional, ngahijikeun jeung turunan) controller di TDC5 dirobah tina standar Omega. Tempo Appendix A pikeun detil. Dasarna, setelan controller Gamry Instruments ngawengku:
· 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.
Sambungan Jalur AC
TDC5 dirancang pikeun beroperasi dina garis AC voltages antara 90 jeung 240 VAC, 50 atawa 60 Hz. Anjeun kedah nganggo kabel listrik AC anu cocog pikeun nyambungkeun TDC5 ka sumber listrik AC anjeun (utama). TDC5 anjeun dikirimkeun nganggo kabel input kakuatan AC tipe AS. Upami anjeun peryogi kabel listrik anu béda, anjeun tiasa kéngingkeun sacara lokal atanapi ngahubungi Omega Engineering Inc. (http://www.omega.com).
12

Pamasangan
Kabel listrik anu nganggo TDC5 kedah ditungtungan ku konektor bikang CEE 22 Standar V dina tungtung alat kabel sareng kedah dipeunteun pikeun layanan 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.
Power-up Cék
Saatos TDC5 disambungkeun ka vol AC luyutagsumberna, anjeun tiasa ngaktipkeun pikeun pariksa operasi dasarna. Saklar kakuatan mangrupakeun switch rocker badag di sisi kénca panel pungkur.
Kakuatan
Pastikeun yén TDC5 anyar dipasang teu boga sambungan kana outlet OUTPUT switched na nalika mimiti Powered. Anjeun hoyong pariksa yén TDC5 ngawasa leres sateuacan anjeun nambihan pajeulitna alat éksternal. Nalika TDC5 diaktipkeun, pangontrol suhu kedah terang sareng ningalikeun sababaraha pesen status. Unggal pesen bakal dipintonkeun pikeun sababaraha detik. Upami anjeun nyambungkeun RTD kana unit, tampilan luhur kedah nunjukkeun suhu ayeuna dina usik (unitna darajat Celsius). Upami anjeun teu acan dipasang usik, tampilan luhur kedah nunjukkeun garis anu ngandung karakter oPER, sapertos anu dipidangkeun di handap ieu:
13

Pamasangan
Saatos unit tos dihidupkeun leres, pareumkeun sateuacan ngadamel sambungan sistem anu sésana.
Kabel USB
Sambungkeun kabel USB antara port USB Type-A dina panel hareup TDC5 sareng port USB Type-A dina komputer host anjeun. Kabel anu disayogikeun pikeun sambungan ieu nyaéta kabel USB Type-A dual-réngsé. Tipe A nyaéta konektor rectangular sedengkeun Tipe B nyaéta konektor USB ampir pasagi.
Ngagunakeun Manajer Alat pikeun Pasang 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

Pamasangan
5. Hurungkeun TDC5 sarta néangan entri anyar nu dumadakan muncul dina palabuhan. Éntri ieu bakal nyarioskeun ka anjeun nomer COM anu aya hubunganana sareng TDC5. Catet ieu kanggo dianggo nalika pamasangan parangkat lunak 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
Kamajuan 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. Pilih COM Port Jumlah anyar tina menu turun-handap. Pilih sajumlah 8 atanapi kirang. Anjeun teu kedah ngarobih setélan anu sanés. Saanggeus nyieun pilihan, inget nomer ieu dipaké salila Instalasi 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. Dina kotak dialog Konfigurasi Suhu controller, pilih TDC5 dina menu turun-handap handapeun Tipe. Milih port COM nu Anjeun nyatet handap saméméhna.
16

Pamasangan
Widang Label kedah ngandung nami. TDC mangrupakeun valid, pilihan merenah.
Nyambungkeun TDC5 ka manaskeun atawa cooler
Aya sababaraha cara pikeun memanaskeun sél éléktrokimia. Ieu kaasup hiji manaskeun immersible dina éléktrolit, pita pemanasan sabudeureun sél, atawa mantel pemanasan. TDC5 tiasa dianggo sareng sadaya jinis pamanas ieu, salami aranjeunna nganggo 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

Pamasangan
Nyambungkeun TDC5 ka RTD Probe
TDC5 kedah tiasa ngukur suhu sateuacan tiasa ngontrolana. TDC5 ngagunakeun platinum RTD pikeun ngukur suhu sél. A RTD cocog disadiakeun kalawan TDC5. Sensor ieu nyolok kana kabel adaptor anu disayogikeun sareng TDC5 anjeun:
Kontak Gamry Instruments, Inc. di fasilitas AS kami upami anjeun kedah ngagentos RTD pihak katilu kana sistem CPT.
Kabel sél ti Potentiostat
TDC5 dina sistem anjeun henteu mangaruhan sambungan kabel sél. Koneksi ieu dilakukeun langsung tina potentiostat ka sél. Mangga baca Manual Operator potentiostat anjeun pikeun parentah kabel sél.
Nyetél Modeu Operasi TDC5
PID controller diwangun kana TDC5 ngabogaan sajumlah modus operasi béda, nu masing-masing geus ngonpigurasi ku cara maké parameter-diasupkeun pamaké.
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.
Mariksa Operasi TDC5
Pikeun pariksa operasi TDC5, anjeun kedah nyetél sél éléktrokimia anjeun lengkep, kalebet pamanas (sareng kamungkinan sistem pendingin). Saanggeus dijieun setelan lengkep ieu, ngajalankeun TDC Atur Temperature.exp naskah. Menta suhu Setpoint rada luhur suhu kamar (sering 30 ° C mangrupakeun setpoint alus). Catet yén suhu anu dititénan dina tampilan bakal ngumbara rada luhur sareng handap suhu setpoint.
18

TDC5 Paké

Bab 3: TDC5 Paké
Bab ieu nyertakeun pamakean normal tina TDC5 Suhu Controller. TDC5 dimaksudkeun utamana pikeun pamakéan dina Gamry Instrumén CPT Critical Pitting Test System. Éta ogé kedah ngabuktikeun mangpaat dina aplikasi anu sanés.
TDC5 dumasar kana controller suhu Omega CS8DPT. Mangga baca dokuméntasi Omega pikeun familiarize diri jeung operasi alat ieu.

Ngagunakeun Framework Scripts pikeun Nyetél tur Control TDC5 Anjeun
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:

Skrip TDC5 Mimitian Otomatis Tune.exp TDC Atur Temperature.exp

Katerangan
Dipaké pikeun ngamimitian prosés auto-tune controller Ngarobah Set Point of a TDC nalika Aksara séjén teu jalan.

Aya hiji downside mun ngagunakeun Aksara ieu. Éta ngan ngajalankeun dina komputer nu boga Gamry Instrumen potentiostat dipasang dina sistem jeung ayeuna disambungkeun. Upami anjeun teu gaduh potentiostat dina sistem, naskah bakal nunjukkeun pesen kasalahan sareng ngeureunkeun sateuacan ngaluarkeun nanaon ka TDC5.

Anjeun teu bisa ngajalankeun sagala Aksara TDC5 dina sistem komputer nu teu kaasup hiji Gamry Instrumén potentiostat.

Desain Termal tina Percobaan Anjeun
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 Insulasi sabudeureun sél bisa ngaleutikan inhomogeneities ku slowing leungitna panas ngaliwatan tembok sél. Ieu hususna leres deukeut éléktroda gawé, nu bisa ngagambarkeun jalur utama escaping panas. Teu ilahar pikeun manggihan suhu éléktrolit deukeut éléktroda gawé 5 ° C leuwih handap ti éta tina bulk éléktrolit.
o Lamun teu bisa nyegah inhomogeneities termal, Anjeun sahenteuna bisa ngaleutikan épék maranéhanana. Salah sahiji pertimbangan desain anu penting nyaéta panempatan RTD anu dianggo pikeun ngaraos suhu sél. Teundeun RTD sacaket mungkin ka éléktroda kerja. Ieu ngaminimalkeun kasalahan antara suhu saleresna dina éléktroda kerja sareng setélan suhu.
19

TDC5 Paké
· 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.

Tuning TDC5 Suhu Controller: leuwihview
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.

Nalika Tune
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:
meja 3 Parameter tuning diatur pabrik

Parameter (Simbol) Pita Proporsional 1 Reset 1 Laju 1 Waktu Siklus 1 Pita Paeh

Setélan 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:
· Ngarobah sél béda.
· Panambahan insulasi termal kana sél.
· Penambahan coil cooling.

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.
Otomatis Tuning TDC5
Nalika anjeun nyaluyukeun otomatis sél anjeun, éta kedah disetél sapinuhna pikeun ngajalankeun tés. Tapi aya hiji iwal. Anjeun teu kedah éléktroda kerja anu sami (logam sample) dipaké dina tés anjeun. Anjeun tiasa nganggo logam ukuran anu samiample.
1. Eusian sél anjeun ku éléktrolit. Sambungkeun sadaya alat pemanasan sareng penyejukan dina cara anu sami anu dianggo dina tés anjeun.
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

Konfigurasi Controller Default

Appendix A: Konfigurasi Controller Default

menu Mode Initialization

Tingkat 2 INPt

Tingkat 3 t.C.
Ltd.
tHRM PROC

Level 4 Level 5 Level 6 Level 7 Level 8 Catetan

k

Tipe K thermocouple

J

Tipe J thermocouple

t

Tipe T thermocouple

E

Tipe E thermocouple

N

Tipe N thermocouple

R

Tipe R thermocouple

S

Tipe S thermocouple

b

Tipe B thermocouple

C

Tipe C thermocouple

N.wIR

3 wI

3-kawat RTD

4 wI

4-kawat RTD

A.CRV
2.25k5k 10k
4

2 jeung 385.1 385.5 385.t 392

2-kawat RTD 385 kurva calibration, 100 385 kurva calibration, 500 385 kurva calibration, 1000 392 kurva calibration, 100 391.6 kurva calibration, 100 2250 thermistor rentang 5000 thermistor m 10,000 thermistor: 4 thermistor input: 20 thermistor input

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

MANL Rd.1

bacaan tampilan low

23

Konfigurasi Controller Default

Tingkat 2
TARE LINR RdG

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

Level 4 Level 5 Level 6 Level 7 Level 8 Catetan

Rd.2

Bacaan tampilan anu luhur

HIDUP

Rd.1

bacaan tampilan low

IN.1

Live Rd.1 input, ENTER pikeun ayeuna

Rd.2

Bacaan tampilan anu luhur

IN.2 0

Live Rd.2 input, ENTER pikeun rentang input Prosés ayeuna: 0 ka 24 mA

+ -10

rentang input prosés: -10 nepi ka +10 V

Catetan: +- 1.0 sareng +-0.1 ngadukung SNGL, dIFF sareng RtIO tTYPE

+ -1

TIPE

SNGL

rentang input prosés: -1 nepi ka +1 V

dIFF

Béda antara AIN+ sareng AIN-

RtLO

Rasio-métrik antara AIN+ jeung AIN-

+ -0.1

rentang input prosés: -0.1 nepi ka +0.1 V

Catetan: Input +- 0.05 ngadukung dIFF sareng RtIO tyPE

+-.05

TIPE

dIFF

Béda antara AIN+ sareng AIN-

RtLO

Ratiometric antara AIN+ jeung AIN-

rentang input prosés: -0.05 nepi ka +0.05 V

Pareuman fitur taRE

Aktipkeun tARE dina menu oPER

Aktipkeun taRE dina oPER sareng Input Digital

Nangtukeun jumlah titik ngagunakeun

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

Rd.n

bacaan tampilan low

Rd.n

bacaan tampilan low

Panginepan

Input Rd.n Live, ENTER pikeun ayeuna

FFF.F

Format bacaan -999.9 nepi ka +999.9

FFFF

Format bacaan -9999 nepi ka +9999

FF.FF

Format bacaan -99.99 nepi ka +99.99

F.FFF

Format bacaan -9.999 nepi ka +9.999

°C

Derajat Celsius annunciator

°F

Gelar Fahrenheit annunciator

Euweuh

Pareum pikeun unit non-suhu

Tampilan Rounding

8

Bacaan per nilai anu ditampilkeun: 8

16

16

24

Konfigurasi Controller Default

Tingkat 2
ECtN ComMM

Level 3 Level 4 Level 5 Level 6 Level 7 Level 8 Catetan

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”

kaluar#

Pilihan kaayaan kaluaran ku ngaran

NCLR

GRN

Warna tampilan standar: Héjo

Beureum

Beureum

AMbR

Amber

bRGt TINGGI

Kacaangan tampilan anu luhur

MEd

Kacaangan tampilan sedeng

Lemah

Kacaangan tampilan low

5 V

pikagumbiraeun voltage: 5 V

10 V

10 V

12 V

12 V

24 V

24 V

0 V

Eksitasi pareum

USB

Ngonpigurasikeun port USB

Catetan: Submenu PRot ieu sami kanggo port USB, Ethernet, sareng Serial.

PRot

oMEG Mode dAt.F

CMd Cont StAt

Ngadagoan paréntah ti tungtung séjén
Kirimkeun terus unggal ###.# detik
No

yES Kaasup bait status Alarm

RdNG

YES Ngawengku prosés maca

No

Puncak

No

YES Kaasup prosés maca pangluhurna

VALY

No

yES Includes lowest process reading

UNIT

No

25

Konfigurasi Controller Default

Tingkat 2

Tingkat 3
EtHN SER

Tingkat 4
AddR PROt AddR PROt C.PAR

Tingkat 5
M.bUS bUS.F bAUd

Level 6 _LF_ ECHo SEPR RtU ASCI
232C 485 19.2

Tingkat 7
Henteu enya enya henteu _CR_ SPCE

Level 8 Notes yES Send unit with value (F, C, V, mV, mA)
Appends feed garis sanggeus unggal ngirim Retransmits narima paréntah
Carriage Return separator in Cont Space separator in Cont Mode Standard Modbus protocol Omega ASCII protocol USB merlukeun Alamat Ethernet konfigurasi port Ethernet "Telnet" merlukeun Alamat Konfigurasi port serial Alat tunggal Mode Serial Comm Sababaraha alat Serial Comm Mode Baud rate: 19,200 Bd

9600 4800 2400

1200 57.6

115.2

PRty

ganjil

MALAH

Euweuh

pareum

dAtA

8bIt

7bIt

Eureun

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

Konfigurasi Controller Default

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

Level 3 RUN.M SP.LM SEN.M
OUT.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
out1
oOut2 oOut3 E.LAt
R.Lo R.HI oke? dSbL

Tingkat 5
dSbL ENbL ENbl dSbL ENbl dSbL o.bRk
ENbl dSbL

Tingkat 6
dSbL ENbl

Tingkat 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

Konfigurasi Controller Default

Level 2 P.Pwd

Level 3 yES No yES

Level 4 _____
_____

Tingkat 5

Tingkat 6

Tingkat 7

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

Programming Mode Menu

Level 2 Level 3 Level 4 Level 5 Level 6 Catetan

SP1

Tujuan prosés pikeun PID, tujuan standar pikeun oN.oF

SP2

ASbo

Nilai setpoint 2 tiasa ngalacak SP1, SP2 mangrupikeun nilai mutlak

dEVI

SP2 mangrupa nilai simpangan

ALM.1 Catetan: submenu ieu sarua pikeun sakabéh konfigurasi Alarm séjén.

tipePE

pareum

ALM.1 henteu dianggo pikeun tampilan atanapi kaluaran

AboV

Alarm: nilai prosés di luhur pemicu Alarm

beLO

Alarm: nilai prosés handap pemicu Alarm

HI.Lo.

Alarm: nilai prosés di luar pemicu Alarm

band

Alarm: nilai prosés antara pemicu Alarm

Ab.dV AbSo

Modeu Absolute; ngagunakeun ALR.H na ALR.L salaku pemicu

d.SP1

Deviation Mode: triggers are deviations from SP1

d.SP2

Deviation Mode: triggers are deviations from SP2

CN.SP

Ngalacak Ramp & Soak setpoint sakedapan

ALR.H

Alarm parameter tinggi pikeun itungan pemicu

ALR.L

Parameter low alarem pikeun itungan pemicu

A.CLR

Beureum

Pintonan beureum nalika Alarm aktip

AMbR

Pintonan Amber nalika Alarm aktip

deFt

Warna teu robah pikeun Alarm

HI.HI

pareum

High High / Low Low Alarm Mode dipareuman

GRN

Tampilan héjo nalika Alarm aktip

oN

Nilai offset pikeun aktip High High / Low Low Mode

LtCH

No

Alarm henteu hurung

enya

Kait alarm nepi ka diberesihan ngaliwatan panel hareup

duananaH

Latches alarem, diberesihan ngaliwatan panel hareup atawa input digital

RMt

Kait alarm dugi ka diberesihan ku input digital

CtCL

No

Kaluaran diaktipkeun ku Alarm

NC

Kaluaran dinonaktipkeun ku Alarm

APoN

enya

Alarm aktip dina kakuatan on

28

Konfigurasi Controller Default

Level 2 Level 3 Level 4 Level 5 Level 6 Catetan

No

Alarm teu aktip dina kakuatan on

dE.oN

Reureuh mareuman Alarm (detik), standar = 1.0

dE.oF

Reureuh mareuman Alarm (detik), standar = 0.0

ALM.2

Alarem 2

out1

oOut1 diganti ku tipe kaluaran

Catetan: Submenu ieu sami kanggo sadaya kaluaran anu sanés.

ModeE

pareum

Kaluaran teu nanaon

PId

Modeu Kontrol PID

ACtN RVRS Reverse acting control (pemanasan)

dRCt Kontrol akting langsung (pendinginan)

RV.DR Reverse / kontrol akting langsung (pemanasan / cooling)

PId.2

Modeu Kontrol PID 2

ACtN RVRS Reverse acting control (pemanasan)

dRCt Kontrol akting langsung (pendinginan)

RV.DR Reverse / kontrol akting langsung (pemanasan / cooling)

on.oF ACtN RVRS Pareum nalika > SP1, on nalika <SP1

dRCt Pareum nalika SP1

maot

Nilai deadband, standar = 5

S.PNt

SP1 Boh Setpoint bisa dipaké on / off, standar SP1

SP2 Ngahususkeun SP2 ngamungkinkeun dua kaluaran disetel pikeun panas / tiis

ALM.1

Kaluaran mangrupa Alarm ngagunakeun konfigurasi ALM.1

ALM.2

Kaluaran mangrupa Alarm ngagunakeun konfigurasi ALM.2

RtRN

Kd1

Nilai prosés pikeun oOut1

out1

Nilai kaluaran pikeun Rd1

Kd2

Nilai prosés pikeun oOut2

RE.oN

Aktipkeun salila Ramp kajadian

SE.oN

Aktipkeun salila acara Soak

SEN.E

Aktipkeun upami aya kasalahan sensor anu dideteksi

OPL.E

Aktipkeun upami kaluaran naon waé nyaéta loop kabuka

CyCL

RNGE

0-10

PWM lebar pulsa dina detik Analog Output Range: 0 volt

oUt2 0-5 0-20

Output value for Rd2 0­5 Volts 0­20 mA

29

Konfigurasi Controller Default

Level 2 Level 3 Level 4 Level 5 Level 6 Catetan

4-20

4 mA

0-24

0 mA

out2

oOut2 diganti ku tipe kaluaran

out3

oOut3 diganti ku jinis kaluaran (1/8 DIN tiasa gaduh dugi ka 6)

PId

ACTN RVRS

Ningkatkeun ka SP1 (nyaéta, pemanasan)

dRCt

Turunkeun ka SP1 (nyaéta, cooling)

RV.DR

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

A. ka

Setel waktos waktos kanggo autotune

TUNE

StRt

Mimitian autotune saatos konfirmasi StRt

rCg

Gain Tiis Relatif (mode pemanasan/tiis)

oFst

Kontrol Offset

maot

Control Dead band/Tumpang tindih band (dina Unit prosés)

%Lo

Low clampwates pikeun Pulse, Kaluaran Analog

%HI

Luhur clampwates pikeun Pulse, Kaluaran Analog

AdPt

ENbL

Aktipkeun logic fuzzy tuning adaptif

dSbL

Nonaktipkeun fuzzy logic adaptive tuning

PId.2 Catetan: menu ieu sarua pikeun menu PID.

RM.SP

pareum

oN

4

Paké SP1, teu jauh Setpoint Jauh analog Input susunan SP1; rentang: 4 mA

Catetan: Submenu ieu sami kanggo sadaya rentang RM.SP.

RS.Lo

Min Setpoint pikeun rentang skala

IN.Lo

nilai input pikeun RS.Lo

RS.HI

Max Setpoint pikeun rentang skala

0 24

IN.HI

Nilai input pikeun RS.HI 0 mA 24 V

M.RMP R.CtL

No

Multi-Sundaamp/Soak Mode pareum

enya

Multi-Sundaamp/Soak Mode on

RMt S.PRG

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

M.tRk

RAMP 0

Dijamin Ramp: soak SP kudu ngahontal dina ramp waktos 0v

SoAk CYCL

Dijamin Soak: waktos soak salawasna dilestarikan Dijamin siklus: ramp tiasa manjangkeun tapi waktos siklus teu tiasa

30

Konfigurasi Controller Default

Tingkat 2

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

Tingkat 4 Tingkat 5 Tingkat 6 Catetan

MM: SS
HH: M M
Eureun

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

HOLd

Terus tahan dina setpoint soak panungtungan di tungtung program

LINK

Mimitian r dieusianamp & soak program dina tungtung program

1 nepi ka 8 Ramp/Soak bagéan (masing-masing 8, total 16)

Pilih nomer bagéan pikeun diédit, éntri ngagantikeun # di handap

MRt.#

Waktu keur Ramp angka, standar = 10

MRE.# OFF Ramp acara on pikeun bagéan ieu

dina Ramp acara kaluar pikeun segmen ieu

MSP.#

Nilai setpoint pikeun angka Soak

MSt.#

Waktos kanggo nomer Soak, standar = 10

MSE.#

OFF Soak acara kaluar pikeun bagéan ieu

on Soak acara on pikeun bagéan ieu

Parobahan nu Gamry Instrumen geus dijieun kana Setélan Default
· 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
tiis, 17
pamanas, 17
Pamasangan Software Gamry, 16 manaskeun, 8, 17, 21, 23 komputer host, 14 Initialization Mode, 25 inspeksi, 7 Label, 17 garis voltages, 8, 12 oPER, 13 Output 1, 17 Output 2, 17 Parameters
Operasi, 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

Indéks
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

Dokumén / Sumberdaya

GAMRY TDC5 Temperature Controller [pdf] Instruksi Manual TDC5 Temperature Controller, TDC5, Temperature Controller, Controller

Rujukan

• Manual pamaké