GAMRY TDC5 Temperature Controller Instruction Manual

Pengontrol Suhu TDC5

Informasi produk

Spesifikasi

  • Product: TDC5 Temperature Controller
  • Produsen: Gamry Instruments, Inc.
  • Garansi: 2 taun saka tanggal pangiriman asli
  • Dhukungan: Bantuan telpon gratis kanggo instalasi, panggunaan, lan
    tuning

Pandhuan Panggunaan Produk

Instalasi

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

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

Operasi

If experiencing issues, contact support via phone or email with
necessary details.

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

Pangopènan

Regularly check for software updates on the support page
diwenehake.

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

FAQ

P: Apa wektu babar pisan kanggo Suhu TDC5
Pengontrol?

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

P: Kepiye carane bisa nggayuh dhukungan pelanggan?

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

P: Apa sing dijamin ing garansi winates?

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

“`

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

Yen Sampeyan Duwe Masalah
Yen Sampeyan Duwe Masalah
Mangga ngunjungi kaca layanan lan dhukungan ing https://www.gamry.com/support-2/. Kaca iki ngemot informasi babagan instalasi, nganyari piranti lunak, lan latihan. Uga ngemot pranala menyang dokumentasi paling anyar sing kasedhiya. Yen sampeyan ora bisa nemokake informasi sing dibutuhake saka kita websitus, sampeyan bisa hubungi kita liwat email nggunakake link kasedhiya ing kita websitus. Utawa, sampeyan bisa ngubungi kita kanthi salah sawijining cara ing ngisor iki:

Telpon Internet

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

Mangga kasedhiya model instrumen lan nomer seri, uga revisi piranti lunak lan perangkat kukuh sing ditrapake.
Yen sampeyan duwe masalah karo instalasi utawa nggunakake TDC5 Suhu Controller, monggo nelpon saka telpon jejere instrument, ngendi sampeyan bisa ngganti setelan instrument nalika ngomong karo kita.
Kita seneng menehi dhukungan gratis tingkat sing cukup kanggo para panuku TDC5. Dhukungan sing cukup kalebu pitulungan telpon sing nyakup instalasi normal, panggunaan, lan tuning TDC5.
Warranty winates
Gamry Instruments, Inc. njamin kanggo pangguna asli produk iki sing bakal bebas saka cacat asil saka Pabrik risak prodhuk utawa komponen kanggo periode rong taun saka tanggal pangiriman asli tuku.
Gamry Instruments, Inc. ora menehi jaminan babagan kinerja Referensi 3020 Potentiostat/Galvanostat/ZRA sing marem kalebu piranti lunak sing disedhiyakake karo produk iki utawa kesesuaian produk kanggo tujuan tartamtu. Obat kanggo nglanggar Warranty Limited iki bakal diwatesi mung kanggo ndandani utawa ngganti, kaya sing ditemtokake dening Gamry Instruments, Inc., lan ora kalebu kerusakan liyane.
Gamry Instruments, Inc. nduweni hak kanggo nggawe revisi kanggo sistem sawayah-wayah tanpa duwe kewajiban kanggo nginstal padha ing sistem sadurunge dituku. Kabeh spesifikasi sistem bisa diganti tanpa kabar.
Ora ana jaminan sing ngluwihi katrangan ing kene. Garansi iki minangka pengganti, lan ora kalebu kabeh jaminan utawa perwakilan liyane, sing dituduhake, diwenehake utawa miturut ukum, kalebu perdagangan lan kabugaran, uga kabeh kewajiban utawa kewajiban Gamry Instruments, Inc., kalebu nanging ora winates kanggo , karusakan khusus utawa konsekuensial.
Warranty Limited iki menehi hak legal tartamtu lan sampeyan bisa uga duwe liyane, sing beda-beda saka negara kanggo negara. Sawetara negara ora ngidini kanggo ngilangi kerusakan insidental utawa konsekuensial.
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.
Penafian
Gamry Instruments, Inc. ora bisa njamin yen TDC5 bakal bisa digunakake karo kabeh sistem komputer, pemanas, piranti pendingin, utawa sel.
Informasi ing manual iki wis dipriksa kanthi teliti lan dipercaya akurat nalika diluncurake. Nanging, Gamry Instruments, Inc. ora tanggung jawab kanggo kasalahan sing bisa katon.

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

Daftar Isi
Daftar Isi
Yen Sampeyan Duwe Masalah …………………………………………………………………………………………………. 3
Garansi winates ……………………………………………………………………………………………………………….. 3
Sangkalan ……………………………………………………………………………………………………………………… .. 3
Hak Cipta …………………………………………………………………………………………………………… … 4
Daftar Isi ……………………………………………………………………………………………………………. 5
Bab 1: Pertimbangan Keamanan ……………………………………………………………………………………… 7 Inspeksi ………… …………………………………………………………………………………………………………….. 7 Baris Voltages ………………………………………………………………………………………………… 8 AC Ngalih Outlet Sekring ……………………………………………………………………………………… 8 TDC5 Keamanan Outlet Listrik …………… …………………………………………………………………………… 8 Keamanan Pemanas ………………………………… ………………………………………………………………… 8 Peringatan RFI………………………………………… …………………………………………………………………………….. 9 Sensitivitas Transien Listrik ………………………………… ……………………………………………………… 9
Bab 2: Instalasi …………………………………………………………………………………………………………… 11 Inspeksi Visual Awal……………………………………………………………………………………………….. 11 Mbukak kemasan TDC5 … ………………………………………………………………………………………………… 11 Lokasi Fisik ……………………… ………………………………………………………………………………………. 11 Bedane Antarane Omega CS8DPT lan TDC5 ………………………………………………………………… 12 Bedane Perangkat Keras ………………………………… ………………………………………………………. 12 Bedane Firmware ………………………………………………………………………………………………….. 12 Sambungan Saluran AC ……… ………………………………………………………………………………………………… 12 Priksa Power-up ……………………… ……………………………………………………………………………………….. 13 Kabel USB ……………………… ………………………………………………………………………………………………….. 14 Nggunakake Manager Piranti kanggo Nginstal TDC5 ……… ………………………………………………………………….. 14 Nyambungake TDC5 menyang Pemanas utawa Pendingin ………………………………… …………………………………………… 17 Nyambungake TDC5 menyang Probe RTD ……………………………………………………… ………………………. 18 Kabel Sel saka Potentiostat ………………………………………………………………………………………………….. 18 Nyetel Mode Operasi TDC5 …………………………………………………………………………… 18 Priksa Operasi TDC5……………………………… ……………………………………………………….. 18
Bab 3: TDC5 Panganggone ………………………………………………………………………………………………….. 19 Nggunakake Framework Scripts kanggo Nyiyapake lan Ngontrol TDC5 ……………………………………………………… 19 Desain Termal Eksperimen Panjenengan ………………………………… ……………………………………………………… 19 Tuning Pengontrol Suhu TDC5: Overview …………………………………………………………………. 20 When to Tune …………………………………………………………………………………………………………………….. 20 Auto Tuning the TDC5 ………………………………………………………………………………………………………….. 21
Lampiran A: Konfigurasi Pengontrol Default ……………………………………………………………………………………….. 23 Menu Mode Inisialisasi ……………………… …………………………………………………………………. 23 Menu Mode Pemrograman ………………………………………………………………………………………………….. 28 Owah-owahan ing Instrumen Gamry Digawe menyang Setelan Default ……………………………………………………… 31
Appendix B: Index ………………………………………………………………………………………………………………………. 33
5

Pertimbangan safety
Bab 1: Pertimbangan Keamanan
Gamry Instruments TDC5 adhedhasar pengontrol suhu standar, Omega Engineering Inc. Model CS8DPT. Omega nyedhiyakake Pandhuan pangguna sing nyakup masalah safety kanthi rinci. Umume kasus, informasi Omega ora diduplikasi ing kene. Yen sampeyan ora duwe salinan dokumen iki, hubungi Omega ing http://www.omega.com. Pengontrol Suhu TDC5 sampeyan wis diwenehake kanthi aman. Hubungi Pandhuan pangguna Omega kanggo mesthekake operasi aman piranti iki.
Inspeksi
Nalika sampeyan nampa TDC5 Suhu Controller Panjenengan, mriksa kanggo bukti karusakan kapal. Yen sampeyan Wigati karusakan apa wae, please kabar Gamry Instruments Inc.. lan operator kapal langsung. Simpen wadhah kapal kanggo bisa dipriksa dening operator.
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 rusak kanggo nunjukaké sing bisa dadi beboyo safety.
Kaya sing ditegesake ing Publikasi IEC 348, Keperluan Keamanan kanggo Alat Ukur Elektronik, TDC5 minangka piranti Kelas I. Aparat kelas I mung aman saka bebaya kejut listrik yen piranti kasebut disambungake menyang lemah bumi protèktif. Ing TDC5 sambungan lemah protèktif iki digawe liwat prong lemah ing kabel baris AC. Yen sampeyan nggunakake TDC5 nganggo kabel garis sing disetujoni, sambungan menyang lemah bumi protèktif kanthi otomatis digawe sadurunge nggawe sambungan daya.
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 disedhiyakake karo kabel garis sing cocog kanggo digunakake ing Amerika Serikat. Ing negara liya, sampeyan bisa uga kudu ngganti kabel sing cocog kanggo jinis stopkontak listrik sampeyan. Sampeyan kudu tansah nggunakake kabel baris karo konektor wadon CEE 22 Standard V ing mburi instrument kabel. Iki minangka konektor sing padha digunakake ing kabel garis standar AS sing diwenehake karo TDC5 sampeyan. Omega Engineering (http://www.omega.com) minangka salah sawijining sumber kanggo kabel garis internasional, kaya sing diterangake ing Pandhuan pangguna.
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.
Polaritas kabel konektor kabel sing bener ditampilake ing Tabel 1 kanggo kabel garis AS lan kabel garis Eropa sing ngetutake konvensi kabel "harmonisasi".
7

Wilayah US Eropah

Pertimbangan safety
Tabel 1 Polaritas lan Werna Tali Garis

Garis Ireng Coklat

Neutral Putih Biru Muda

Bumi-Lemah Ijo Ijo/Kuning

Yen sampeyan duwe keraguan babagan kabel garis sing digunakake karo TDC5, hubungi teknisi listrik utawa teknisi instrumen sing mumpuni kanggo njaluk bantuan. Wong qualified bisa nindakake mriksa lampahing prasaja sing bisa verifikasi sambungan saka sasis TDC5 kanggo bumi lan kanthi mangkono mriksa safety saka instalasi TDC5 Panjenengan.
Garis Voltages
TDC5 dirancang kanggo operate ing AC line voltagantarane 90 lan 240 VAC, 50 utawa 60 Hz. Ora modifikasi saka TDC5 dibutuhake nalika ngoper antarane US lan internasional AC line voltages.
Outlet AC Ngalih
Loro stopkontak sing diuripake ing mburi TDC5 duwe sekring ing ndhuwur lan ing sisih kiwa output. Kanggo Output 1, rating sekring maksimum sing diidini yaiku 3 A; kanggo Output 2, sekring maksimum sing diidini yaiku 5 A.
TDC5 kasedhiya karo 3 A lan 5 A, cepet-jotosan, 5 × 20 mm sekring ing stopkontak ngalih.
Sampeyan bisa uga pengin nyetel sekring ing saben stopkontak kanggo beban samesthine. Kanggo example, yen sampeyan nggunakake mesin ingkang ndamel benter kartrid 200 W karo 120 baris daya VAC, saiki nominal dicokot kurang saka 2 A. Sampeyan bisa uga pengin nggunakake 2.5 A sekring ing stopkontak ngalih menyang mesin ingkang ndamel benter. Njaga rating sekring mung ing ndhuwur daya sing dirating bisa nyegah utawa nyuda karusakan ing pemanas sing ora dioperasikake kanthi bener.
TDC5 Safety Outlet Listrik
TDC5 duwe loro stopkontak listrik ing panel mburi pager. Outlet iki ana ing kontrol modul controller TDC5 utawa komputer remot. Kanggo pertimbangan safety, saben TDC5 diuripake, sampeyan kudu nganggep stopkontak kasebut aktif.
Ing kasus paling, TDC5 daya siji utawa loro stopkontak nalika pisanan powered munggah.
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.

Safety Heater
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 safety
Peringatan RFI
Pengontrol Suhu TDC5 sampeyan ngasilake, nggunakake, lan bisa mancarake energi frekuensi radio. Tingkat radiasi cukup sithik supaya TDC5 ora ana masalah gangguan ing lingkungan laboratorium industri. TDC5 bisa nyebabake gangguan frekuensi radio yen dioperasikake ing lingkungan omah.
Sensitivitas Transient Listrik
Pengontrol Suhu TDC5 sampeyan dirancang kanggo menehi kekebalan sing cukup saka transien listrik. Nanging, ing kasus sing abot, TDC5 bisa gagal utawa malah ngalami karusakan saka transien listrik. Yen sampeyan duwe masalah ing babagan iki, langkah-langkah ing ngisor iki bisa mbantu:
· Yen masalahe listrik statis (sparks katon nalika sampeyan ndemek TDC5: o Nempatake TDC5 ing lumahing karya kontrol statis bisa mbantu. lumahing karya kontrol statis saiki umume kasedhiya saka omah sumber komputer lan supplier piranti elektronik. keset lantai uga bisa mbantu, utamane yen karpet melu ngasilake listrik statis.tage kasedhiya ing discharge statis.
· Yen masalahe yaiku transien saluran listrik AC (asring saka motor listrik gedhe sing cedhak karo TDC5): o Coba pasang TDC5 menyang sirkuit cabang AC-daya sing beda. o Tancepake TDC5 menyang suppressor lonjakan saluran listrik. Suppressor lonjakan sing murah saiki umume kasedhiya amarga digunakake karo peralatan komputer.
Hubungi Gamry Instruments, Inc. yen langkah-langkah kasebut ora ngrampungake masalah kasebut.
9

Instalasi
Bab 2: Instalasi
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 Pandhuan pangguna Omega kanggo familiarize dhewe karo 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 TDC5 rusak kanggo nunjukaké sing bisa dadi beboyo safety.

Mbukak kemasan TDC5
Dhaptar item ing ngisor iki kudu diwenehake karo TDC5: Tabel 2
Packing list for Gamry TDC5 (modified Omega CS8DPT) with Gamry P/N 992-00143

Kaping 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 wakil Gamry Instruments lokal yen sampeyan ora bisa nemokake item iki ing wadhah kapal.
Lokasi Fisik
Sampeyan bisa nyelehake TDC5 ing permukaan meja kerja normal. Sampeyan mbutuhake akses menyang mburi instrumen amarga sambungan daya digawe saka mburi. TDC5 ora diwatesi kanggo operasi ing posisi sing rata. Sampeyan bisa operate ing sisih, utawa malah munggah-mudhun.

11

Instalasi
Bedane Antarane Omega CS8DPT lan TDC5
Bedane Hardware
A Gamry Instruments TDC5 has one addition compared to an unmodified Omega CS8DPT: A new connector is added to the front panel. It is a three-pin connector used for a three-wire 100 platinum RTD. The RTD connector is wired in parallel with the input terminal strip on the Omega CS8DPT. You can still make use of the full range of input connections.
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.
Bedane Firmware
Setelan konfigurasi perangkat kukuh kanggo PID (proporsional, nggabungake lan turunan) controller ing TDC5 diganti saka gawan Omega. Waca Lampiran A kanggo rincian. Sejatine, persiyapan pengontrol Gamry Instruments kalebu:
· 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 AC Line
TDC5 dirancang kanggo operate ing AC line voltagantarane 90 lan 240 VAC, 50 utawa 60 Hz. Sampeyan kudu nggunakake kabel daya AC cocok kanggo nyambungake TDC5 menyang sumber daya AC (utama). TDC5 sampeyan dikirim nganggo kabel input daya AC tipe USA. Yen sampeyan butuh kabel listrik sing beda, sampeyan bisa entuk kabel lokal utawa hubungi Omega Engineering Inc. (http://www.omega.com).
12

Instalasi
Kabel daya sing digunakake karo TDC5 kudu mungkasi nganggo konektor wadon CEE 22 Standard V ing ujung instrumen kabel lan kudu dirating kanggo 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.
Priksa Power-up
Sawise TDC5 disambungake menyang vol AC cocoktage sumber, sampeyan bisa nguripake kanggo verifikasi operasi dhasar. Saklar daya minangka saklar rocker gedhe ing sisih kiwa panel mburi.
daya
Priksa manawa TDC5 sing mentas diinstal ora ana sambungan menyang stopkontak OUTPUT sing diuripake nalika pisanan diuripake. Sampeyan pengin verifikasi manawa TDC5 bisa digunakake kanthi bener sadurunge nambahake kerumitan piranti eksternal. Nalika TDC5 diuripake, pengontrol suhu kudu madhangi lan nampilake sawetara pesen status. Saben pesen bakal ditampilake sawetara detik. Yen sampeyan nyambungake RTD menyang unit, tampilan ndhuwur kudu nuduhake suhu saiki ing probe (unit kasebut derajat Celsius). Yen sampeyan ora duwe probe sing diinstal, tampilan ndhuwur kudu nuduhake garis sing ngemot karakter oPER, kaya sing ditampilake ing ngisor iki:
13

Instalasi
Sawise unit wis diuripake kanthi bener, mateni sadurunge nggawe sambungan sistem sing isih ana.
Kabel USB
Sambungake kabel USB ing antarane port USB Type-A ing panel ngarep TDC5 lan port USB Type-A ing komputer host sampeyan. Kabel sing diwenehake kanggo sambungan iki yaiku kabel USB Type-A dual-ended. Tipe A minangka konektor persegi panjang dene Tipe B minangka konektor USB sing meh persegi.
Nggunakake Manager Piranti kanggo Instal 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

Instalasi
5. Nguripake TDC5 lan goleki entri anyar sing dumadakan katon ing Port. Entri iki bakal ngandhani nomer COM sing ana gandhengane karo TDC5. Elinga babagan iki kanggo digunakake sajrone instalasi piranti 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
Maju 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 Number anyar saka menu gulung-mudhun. Pilih nomer 8 utawa kurang. Sampeyan ora perlu ngganti setelan liyane. Sawise sampeyan wis milih, elinga nomer iki kanggo nggunakake sak 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. Ing kothak dialog Konfigurasi Pengontrol Suhu, pilih TDC5 ing menu gulung mudhun ing Tipe. Pilih port COM sing wis dicathet sadurunge.
16

Instalasi
Kolom Label kudu ngemot jeneng. TDC iku bener, pilihan trep.
Nyambungake TDC5 menyang Heater utawa Cooler
Ana akeh cara kanggo panas sel elektrokimia. Iki kalebu pemanas immersible ing elektrolit, tape pemanasan ing saubengé sel, utawa mantel pemanasan. TDC5 bisa digunakake karo kabeh jinis pemanas iki, anggere AC-powered.
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

Instalasi
Nyambungake TDC5 menyang RTD Probe
TDC5 kudu bisa ngukur suhu sadurunge bisa ngontrol. TDC5 nggunakake RTD platinum kanggo ngukur suhu sel. A RTD cocok diwenehake karo TDC5. Sensor iki disambungake menyang kabel adaptor sing diwenehake karo TDC5 sampeyan:
Hubungi Gamry Instruments, Inc. ing fasilitas AS yen sampeyan kudu ngganti RTD pihak katelu menyang sistem CPT.
Kabel Cell saka Potentiostat
TDC5 ing sistem sampeyan ora mengaruhi sambungan kabel sel. Sambungan kasebut digawe langsung saka potentiostat menyang sel. Mangga waca Manual Operator potentiostat kanggo instruksi kabel sel.
Nyetel Mode Operasi TDC5
Kontroler PID sing dibangun ing TDC5 nduweni sawetara mode operasi sing beda-beda, sing saben-saben dikonfigurasi kanthi paramèter sing diketik pangguna.
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.
Priksa operasi TDC5
Kanggo mriksa operasi TDC5, sampeyan kudu nyiyapake sel elektrokimia kanthi lengkap, kalebu pemanas (lan bisa uga sistem pendinginan). Sawise sampeyan wis nggawe persiyapan lengkap iki, mbukak TDC Set Temperature.exp script. Nyuwun suhu Setpoint rada ndhuwur suhu kamar (asring 30 ° C minangka setpoint sing apik). Elinga yen suhu diamati ing tampilan bakal ngumbara rada ndhuwur lan ngisor suhu setpoint.
18

TDC5 Gunakake

Bab 3: TDC5 Gunakake
Bab iki nyakup panggunaan normal saka TDC5 Temperature Controller. TDC5 dimaksudaké utamané kanggo digunakake ing Gamry Instruments CPT Critical Pitting Test System. Sampeyan uga kudu mbuktekaken migunani ing aplikasi liyane.
TDC5 adhedhasar pengontrol suhu Omega CS8DPT. Mangga maca dokumentasi Omega kanggo familiarize dhewe karo operasi apparatus iki.

Nggunakake Framework Scripts kanggo Nyiyapake lan Ngontrol TDC5 Panjenengan
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 Mulai Auto Tune.exp TDC Setel Temperature.exp

Katrangan
Digunakake kanggo miwiti proses auto-tune controller Ngganti Set Point saka TDC nalika Tulisan liyane ora mlaku.

Ana kekurangan kanggo nggunakake skrip kasebut. Padha mung mbukak ing komputer sing wis Gamry Instruments potentiostat diinstal ing sistem lan saiki disambungake. Yen sampeyan ora duwe potentiostat ing sistem, skrip bakal nuduhake pesen kesalahan lan mungkasi sadurunge ngasilake apa wae menyang TDC5.

Sampeyan ora bisa mbukak sembarang script TDC5 ing sistem komputer sing ora kalebu Gamry Instruments potentiostat.

Desain Termal Eksperimen Panjenengan
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 ing saubengé sèl bisa nyilikake inhomogenitas kanthi nyepetake mundhut panas liwat tembok sel. Iki luwih bener ing cedhak elektroda kerja, sing bisa makili jalur utama kanggo uwal saka panas. Iku ora aneh kanggo nemokake suhu elektrolit ing cedhak elektroda kerja 5 ° C luwih murah tinimbang sing akeh elektrolit.
o Yen sampeyan ora bisa nyegah inhomogeneities termal, sampeyan bisa paling nyilikake efek. Siji pertimbangan desain penting yaiku panggonan RTD sing digunakake kanggo ngrasakake suhu sel. Selehake RTD minangka cedhak karo elektroda kerja. Iki nyilikake kesalahan antarane suhu nyata ing elektroda kerja lan setelan suhu.
19

TDC5 Gunakake
· 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: Swaraview
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 kanggo 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:
Tabel 3 Parameter tuning set pabrik

Parameter (Simbol) Proportional Band 1 Reset 1 Rate 1 Cycle Time 1 Dead Band

Setelan 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:
· Ngganti sel sing beda.
· Penambahan insulasi termal menyang sel.
· Tambahan saka cooling coil.

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.
Tuning otomatis TDC5
Nalika sampeyan nyetel otomatis sel, kudu disiyapake kanthi lengkap kanggo nganakake tes. Nanging ana siji pangecualian. Sampeyan ora mbutuhake elektroda kerja sing padha (logam sample) digunakake ing testing Panjenengan. Sampeyan bisa nggunakake s logam ukuran padhaample.
1. Isi sel karo elektrolit. Sambungake kabeh piranti dadi panas lan adhem kanthi cara sing padha digunakake ing tes sampeyan.
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

Lampiran A: Konfigurasi Pengontrol Default

Menu Mode Initialization

Level 2 INPt

Tingkat 3 t.C.
PT
tHRM PROC

Level 4 Level 5 Level 6 Level 7 Level 8 Notes

k

T thermocouple K

J

Tipe J termokopel

t

Tipe T termokopel

E

Termokopel tipe E

N

Termokopel tipe N

R

Termokopel tipe R

S

Tipe S thermocouple

b

Termokopel tipe B

C

Termokopel tipe C

N.wIR

3 wiy

3-kawat RTD

4 wiy

4-kawat RTD

A.CRV
2.25k 5k 10k
4

2 wI 385.1 385.5 385.t 392 391.6

2-wire 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 thermistor Process input range: 4 to 20 mA

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

MANL Rd.1

maca tampilan kurang

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 Notes

Rd.2

Wacan tampilan dhuwur

LIVE

Rd.1

maca tampilan kurang

ING.1

Urip Rd.1 input, ENTER kanggo saiki

Rd.2

Wacan tampilan dhuwur

ING.2 0

Live input Rd.2, ENTER kanggo sawetara input Proses saiki: 0 kanggo 24 mA

+ -10

Range input proses: -10 nganti +10 V

Cathetan: +- 1.0 lan +-0.1 ndhukung SNGL, dIFF lan RtIO tTYPE

+ -1

TIPE

SNGL

Range input proses: -1 nganti +1 V

dIFF

Bedane antarane AIN+ lan AIN-

RtLO

Rasio-metrik antarane AIN+ lan AIN-

+ -0.1

Range input proses: -0.1 nganti +0.1 V

Cathetan: Input +- 0.05 ndhukung dIFF lan RtIO tyPE

+-.05

TIPE

dIFF

Bedane antarane AIN+ lan AIN-

RtLO

Ratometrik antarane AIN+ lan AIN-

Range input proses: -0.05 nganti +0.05 V

Pateni fitur tARE

Aktifake tARE ing menu oPER

Aktifake tARE ing oPER lan Input Digital

Nemtokake nomer TCTerms kanggo nggunakake

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

Rd.n

maca tampilan kurang

Rd.n

maca tampilan kurang

IN.n

Live Rd.n input, ENTER kanggo saiki

FFF.F

Format maca -999.9 nganti +999.9

FFFF

Format maca -9999 nganti +9999

FF.FF

Format maca -99.99 nganti +99.99

F.FFF

Format maca -9.999 nganti +9.999

°C

Derajat Celcius annunciator

°F

Derajat Fahrenheit annunciator

ORA

Pateni kanggo unit non-suhu

Tampilan Rounding

8

Wacan saben nilai sing ditampilake: 8

16

16

24

Konfigurasi Controller Default

Tingkat 2
ECtN ComMM

Tataran 3 Tataran 4 Tataran 5 Tataran 6 Tataran 7 Tataran 8 Cathetan

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”

metu#

Pilihan negara output miturut jeneng

NCLR

GRN

Warna tampilan standar: Ijo

abang

abang

AMbR

Amber

bRGt Dhuwur

Padhange tampilan dhuwur

MEd

Padhange tampilan medium

kurang

Padhange tampilan kurang

5 V

Eksitasi voltage: 5 V

10 V

10 V

12 V

12 V

24 V

24 V

0 V

Eksitasi mati

USb

Konfigurasi port USB

Cathetan: Submenu PRot iki padha karo port USB, Ethernet, lan Serial.

PRot

oMEG Mode dAt.F

CMd Cont StAt

Ngenteni printah saka mburi liyane
Kirim terus-terusan saben ###.# detik
Ora

yES Kalebu bait status weker

RdNG

YES Kalebu proses maca

Ora

Puncak

Ora

YES Kalebu proses maca paling dhuwur

WALI

Ora

yES Includes lowest process reading

UNIT

Ora

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

Tingkat 7
Ora ya ya ora _CR_ SPCE

Level 8 Notes yES Send unit with value (F, C, V, mV, mA)
Appends feed baris sawise saben ngirim Retransmits nampa printah
Carriage Return separator in Cont Space separator in Cont Mode Standard Modbus protocol Protokol Omega ASCII USB mbutuhake Alamat konfigurasi port Ethernet Ethernet "Telnet" mbutuhake Alamat Konfigurasi port serial Piranti tunggal Mode Komunikasi Serial Akeh piranti Mode Komunikasi Serial Baud rate: 19,200 Bd

9600 4800 2400

1200 57.6

115.2

PRty

aneh

MALAH

ORA

OFF

dAtA

8bIt

7bIt

StopP

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

Menu Mode Pemrograman

Level 2 Level 3 Level 4 Level 5 Level 6 Notes

SP1

Tujuan proses kanggo PID, tujuan standar kanggo oN.oF

SP2

ASbo

Nilai Setpoint 2 bisa nglacak SP1, SP2 minangka nilai mutlak

dEVI

SP2 minangka nilai panyimpangan

ALM.1 Cathetan: Submenu iki padha kanggo kabeh konfigurasi Weker liyane.

TIPE

OFF

ALM.1 ora digunakake kanggo tampilan utawa output

AboV

Weker: nilai proses ing ndhuwur pemicu Weker

beLO

Weker: nilai proses ing ngisor pemicu Weker

HI.Lo.

Weker: nilai proses ing njaba pemicu Weker

band

Weker: nilai proses antarane pemicu Weker

Ab.dV AbSo

Mode Absolute; nggunakake ALR.H lan ALR.L minangka pemicu

d.SP1

Deviation Mode: triggers are deviations from SP1

d.SP2

Deviation Mode: triggers are deviations from SP2

CN.SP

Nglacak Ramp & Rendhem setpoint cepet

ALR.H

Parameter dhuwur weker kanggo petungan pemicu

ALR.L

Parameter rendah weker kanggo petungan pemicu

A.CLR

abang

Tampilan abang nalika Weker aktif

AMbR

Tampilan Amber nalika Weker aktif

deEFt

Weker ora ngganti werna

HI.HI

OFF

Dhuwur Dhuwur / Sedheng Mode Weker dipateni

GRN

Tampilan ijo nalika Weker aktif

oN

Nilai offset kanggo aktif High High / Low Low Mode

LtCH

Ora

Weker ora kenceng

wis

Kait weker nganti dibusak liwat panel ngarep

loroH

Latches weker, dibusak liwat panel ngarep utawa input digital

RMt

Kait weker nganti dibusak liwat input digital

CtCL

Ora

Output diaktifake karo Weker

NC

Output dipateni nganggo Weker

APoN

wis

Weker aktif ing daya

28

Konfigurasi Controller Default

Level 2 Level 3 Level 4 Level 5 Level 6 Notes

Ora

Weker ora aktif nalika diuripake

dE.oN

Tundha mateni Weker (detik), standar = 1.0

dE.oF

Tundha mateni Weker (detik), standar = 0.0

ALM.2

Weker 2

out1

oOut1 diganti dening jinis output

Cathetan: Submenu iki padha kanggo kabeh output liyane.

ModE

OFF

Output ora nindakake apa-apa

PId

Mode Kontrol PID

ACtN RVRS Reverse acting control (pemanasan)

dRCt Kontrol akting langsung (pendinginan)

RV.DR Reverse/Direct acting control (pemanasan/pendinginan)

PId.2

Mode Kontrol PID 2

ACtN RVRS Reverse acting control (pemanasan)

dRCt Kontrol akting langsung (pendinginan)

RV.DR Reverse/Direct acting control (pemanasan/pendinginan)

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

dRCt Off nalika SP1

mati

Nilai deadband, standar = 5

S.PNt

SP1 Salah siji Setpoint bisa digunakake ing / mati, standar SP1

SP2 Nemtokake SP2 ngidini rong output disetel kanggo panas / adhem

ALM.1

Output minangka Weker nggunakake konfigurasi ALM.1

ALM.2

Output minangka Weker nggunakake konfigurasi ALM.2

RtRN

Kd1

Nilai proses kanggo oOut1

out1

Nilai output kanggo Rd1

Kd2

Nilai proses kanggo oOut2

RE.oN

Aktifake sajrone Ramp acara

SE.oN

Aktifake sajrone acara Soak

SEN.E

Aktifake yen ana kesalahan sensor sing dideteksi

OPL.E

Aktifake yen ana output mbukak loop

CyCL

RNGE

0-10

Jembar pulsa PWM ing detik Range Output Analog: 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 Notes

4-20

4 mA

0-24

0 mA

out2

oOut2 diganti dening jinis output

out3

oOut3 diganti karo jinis output (1/8 DIN bisa nganti 6)

PId

ACTN RVRS

Tambah dadi SP1 (yaiku, pemanasan)

dRCt

Ngurangi dadi SP1 (yaiku, pendinginan)

RV.DR

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

A.kanggo

Setel wektu entek kanggo autotune

tembang

StRt

Miwiti autotune sawise konfirmasi StRt

rCg

Gain Kelangan Relatif (mode pemanasan/pendingin)

oFst

Kontrol Offset

mati

Kontrol Pita mati/Tali tumpang tindih (ing unit proses)

%Loh

Kurang clampwatesan ing kanggo Pulse, Output Analog

%HI

Dhuwur clampwatesan ing kanggo Pulse, Output Analog

AdPt

ENbL

Aktifake tuning adaptif logika fuzzy

dSbL

Pateni tuning adaptif logika fuzzy

PId.2 Cathetan: Menu iki padha karo menu PID.

RM.SP

OFF

oN

4

Gunakake SP1, ora remot Setpoint Remot analog Input set SP1; sawetara: 4 mA

Cathetan: Submenu iki padha kanggo kabeh kisaran RM.SP.

RS.Lo

Min Setpoint kanggo skala skala

IN.Lo

Nilai input kanggo RS.Lo

RS.HI

Setpoint Max kanggo sawetara skala

0 24

IN.HI

Nilai input kanggo RS.HI 0 mA 24 V

M.RMP R.CtL

Ora

Multi-Ramp/ Mode rendhem mati

wis

Multi-Ramp/ Mode rendhem aktif

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: rendhem SP kudu ngrambah ing ramp wektu 0v

SoAk CYCL

Dijamin Rendhem: rendhem wektu tansah wadi Dijamin siklus: ramp bisa ngluwihi nanging wektu siklus ora bisa

30

Konfigurasi Controller Default

Tingkat 2

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

Level 4 Level 5 Level 6 Cathetan

MM: SS
HH: M
STOP

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 terus ing setpoint rendhem pungkasan ing mburi program

LINK

Miwiti r sing ditemtokakeamp & rendhem program ing pungkasan program

1 kanggo 8 Ramp/Segmen rendhem (masing-masing 8, total 16)

Pilih nomer segmen sing arep diowahi, entri ngganti # ing ngisor iki

MRt.#

Wektu kanggo Ramp angka, standar = 10

MRE.# saka Ramp acara ing bagean iki

ing Ramp acara mati kanggo segmen iki

MSP.#

Nilai setpoint kanggo nomer Soak

MSt.#

Wektu kanggo nomer Rendhem, standar = 10

MSE.#

OFF Rendhem acara kanggo segmen iki

On Rendhem acara kanggo bagean iki

Owah-owahan sing Digawe Instrumen Gamry menyang Setelan 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
adhem, 17
pemanas, 17
Instalasi Perangkat Lunak Gamry, 16 pemanas, 8, 17, 21, 23 komputer host, 14 Mode Inisialisasi, 25 inspeksi, 7 Label, 17 baris 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

Indeks
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

Dokumen / Sumber Daya

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

Referensi

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