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CBP Bipotentiostat: Upgrade Options

CBP Bipotentiostat: Upgrade Options

by | Jan 4, 2016 | Uncategorized

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Owners of the Pine CBP Bipotentiostat system who are presently using our classic PineChem software may wish to upgrade to our new AfterMath software package. Such an upgrade is likely to involve both a software upgrade and a corresponding hardware upgrade. This article discusses some of the issues to consider when contemplating an upgrade.


[toggle title = “What can I get for free?”]

All users of our classic PineChem software may take advantage of the FREE AfterMath Viewer download option. If you are only looking for the ability to analyze data and prepare plots from your bipotentiostat data, then you can download a free copy of our AfterMath Viewer software package. The viewer permits you to import PineChem data files directly into the AfterMath viewer software, and then you can prepare plots and analyze data using AfterMath.

[/toggle]
[toggle title = “What if I want to control the CBP Bipotentiostat using AfterMath?”]

If you wish to to control your CBP Bipotentiostat using AfterMath, then you need to consider upgrades to all five of the following components in your existing CBP system:

  1. Interface Board Upgrade. The interface board (which is installed inside the computer) must be a 16-bit interface board. Older bipotentiostat systems are likely to have an earlier 12-bit interface board rather than a 16-bit interface board. Because AfterMath uses the interface board to digitally generate the waveform applied to the working electrode, it is essential to use a higher resolution 16-bit interface board when working with AfterMath. If you have purchased your CBP bipotentiostat system recently, you may already have a 16-bit interface board. If not, you will need to purchase a 16-bit board (click here for details)
  2. Filter Board Upgrade. When using the interface board to send digital waveforms to the bipotentiostat and to record the response from the potentiostat, it is very likely that noise will be introduced as signals travel between the computer and the bipotentiostat. For this reason, Pine strongly recommends that a signal filter board be installed in the bipotentiostat. This easily installed add-on board provides various levels of signal filtering for both the excitation signals and the response signals travelling in the interface cable. (click here for details)
  3. Software License Upgrade. The software license for AfterMath is tied to the particular interface board installed in the computer. For this reason, it is important to first settle the issue of the 16-bit interface board upgrade (discussed above) before ordering AfterMath from Pine. You will need to report the serial number of your interface board to Pine at the time you purchase the AfterMath upgrade (click here for details)
  4. Operating System Upgrade. AfterMath works with Windows 8, Windows 7, Windows Vista, and Windows XP (32 bit). If you are using a computer with an earlier version of Windows, then you will need to upgrade the operating system. (click here for minimum system requirements)
  5. Device Driver Upgrade. If you upgrade the interface board and/or the operating system, then you will very likely need to upgrade the device driver for the interface board. (click here for device driver information)
[/toggle]
[toggle title = “How much does it cost to upgrade?”]

Pine is happy to provide you with a quotation for an upgrade package. Contact Pine at (919) 782-8320 or using our online contact form (click here). We will be happy to help you evaluate exactly what you need to successfully upgrade your system.

In general, most customers choose to purchase the filter board together with the software license directly from Pine. In the event that an interface board upgrade is also required, Pine can also supply the interface board, but it is generally less expensive to purchase the interface board directly from National Instruments.

[/toggle]
[toggle title = “What features does AfterMath offer?”]

AfterMath software has many advantageous features. In each of the tabs below, the functions of the software are displayed.

Data Analysis and Plotting Features Multi-Trace Overlay Plotting Peak Area, Height & Baseline Tools Trace Data Transform Functions Drag-n-Drop Traces on to Plots Full Support for SI Units Select Traces, Segments, and Points International Unicode Font Support Superscripts, Subscripts, Symbols Publication Quality Printing Queueing Multiple Experiments Control of Multiple Potentiostats Cell Control while Idle

System Clipboard Support Copy Trace Data to Clipboard Copy Trace Data from Clipboard Copy Plot Image to Clipboard

Original PineChem Methods: Cyclic Voltammetry (CV) Bulk Electrolysis (BE) – Constant Potential Dual Electrode Cyclic Voltammetry (DECV) – Collection, Shielding, and Window variants Dual Electrode Bulk Electrolysis (DEBE) – Controlled Potential

Additional Single Step Methods: Open Circuit Potential vs time (OCP) Bulk Electrolysis (BE) – Constant Current Dual Electrode Bulk Electrolysis (DEBE) – Mixed Mode Constant Current and/or Potential Single-Step Chronoamperometry (CA)

Staircase, Pulse, and Multistep Methods: Double-Step Chronoamperometry (DPSCA) Linear Staircase Voltammetry (LSCV) Differential Pulse Voltammetry (DPV) Square Wave Voltammetry (SWV) Normal Pulse Voltammetry (NPV) – including Reverse Normal Pulse Voltammetry

Cyclic Staircase & Pulse Methods: Cyclic Staircase Voltammetry (CSCV) Cyclic Differential Pulse Voltammetry (CDPV) Cyclic Square Wave Voltammetry (CSWV) Cyclic Normal Pulse Voltammetry (CNPV) – including Cyclic Reverse Normal Pulse Voltammetry

Galvanostatic Methods: Chronopotentiometry (CP) Current Ramp Chronopotentiometry (CRP) Cyclic Current Ramp Potentiometry (CCP)

Stripping Voltammetry (anodic and cathodic): Stripping Voltammetry (ASV) Differential Pulse Stripping Voltammetry (DPSV) Square Wave Stripping Voltammetry (SWSV)

Data Storage Formats PineChem Setup File (.stp) PineChem Results File (.exp) AfterMath Data Archive (.paax)

  Limited Limited Limited No No No No No No No No Yes     No No No     Yes Yes Yes Yes Yes Yes Yes     No No No No No No       No No No No No No     No No No No No     No No No     No No No     Yes Yes No
Data Analysis and Plotting Features Multi-Trace Overlay Plotting Peak Area, Height & Baseline Tools Trace Data Transform Functions Drag-n-Drop Traces on to Plots Full Support for SI Units Select Traces, Segments, and Points International Unicode Font Support Superscripts, Subscripts, Symbols Publication Quality Printing Queueing Multiple Experiments Control of Multiple Potentiostats Cell Control while Idle

System Clipboard Support Copy Trace Data to Clipboard Copy Trace Data from Clipboard Copy Plot Image to Clipboard

Original PineChem Methods: Cyclic Voltammetry (CV) Bulk Electrolysis (BE) – Constant Potential Dual Electrode Cyclic Voltammetry (DECV) – Collection, Shielding, and Window variants Dual Electrode Bulk Electrolysis (DEBE) – Controlled Potential

Additional Single Step Methods: Open Circuit Potential vs time (OCP) Bulk Electrolysis (BE) – Constant Current Dual Electrode Bulk Electrolysis (DEBE) – Mixed Mode Constant Current and/or Potential Single-Step Chronoamperometry (CA)

Staircase, Pulse, and Multistep Methods: Double-Step Chronoamperometry (DPSCA) Linear Staircase Voltammetry (LSCV) Differential Pulse Voltammetry (DPV) Square Wave Voltammetry (SWV) Normal Pulse Voltammetry (NPV) – including Reverse Normal Pulse Voltammetry

Cyclic Staircase & Pulse Methods: Cyclic Staircase Voltammetry (CSCV) Cyclic Differential Pulse Voltammetry (CDPV) Cyclic Square Wave Voltammetry (CSWV) Cyclic Normal Pulse Voltammetry (CNPV) – including Cyclic Reverse Normal Pulse Voltammetry

Galvanostatic Methods: Chronopotentiometry (CP) Current Ramp Chronopotentiometry (CRP) Cyclic Current Ramp Potentiometry (CCP)

Stripping Voltammetry (anodic and cathodic): Stripping Voltammetry (ASV) Differential Pulse Stripping Voltammetry (DPSV) Square Wave Stripping Voltammetry (SWSV)

Data Storage Formats PineChem Setup File (.stp) PineChem Results File (.exp) AfterMath Data Archive (.paax)

  Yes Yes Yes Yes Yes Yes Yes Yes Yes No No Yes     Yes Yes Yes     No No No No No No No     No No No No No No       No No No No No No     No No No No No     No No No     No No No     Import Only Import Only Yes
Data Analysis and Plotting Features Multi-Trace Overlay Plotting Peak Area, Height & Baseline Tools Trace Data Transform Functions Drag-n-Drop Traces on to Plots Full Support for SI Units Select Traces, Segments, and Points International Unicode Font Support Superscripts, Subscripts, Symbols Publication Quality Printing Queueing Multiple Experiments Control of Multiple Potentiostats Cell Control while Idle

System Clipboard Support Copy Trace Data to Clipboard Copy Trace Data from Clipboard Copy Plot Image to Clipboard

Original PineChem Methods: Cyclic Voltammetry (CV) Bulk Electrolysis (BE) – Constant Potential Dual Electrode Cyclic Voltammetry (DECV) – Collection, Shielding, and Window variants Dual Electrode Bulk Electrolysis (DEBE) – Controlled Potential

Additional Single Step Methods: Open Circuit Potential vs time (OCP) Bulk Electrolysis (BE) – Constant Current Dual Electrode Bulk Electrolysis (DEBE) – Mixed Mode Constant Current and/or Potential Single-Step Chronoamperometry (CA)

Staircase, Pulse, and Multistep Methods: Double-Step Chronoamperometry (DPSCA) Linear Staircase Voltammetry (LSCV) Differential Pulse Voltammetry (DPV) Square Wave Voltammetry (SWV) Normal Pulse Voltammetry (NPV) – including Reverse Normal Pulse Voltammetry

Cyclic Staircase & Pulse Methods: Cyclic Staircase Voltammetry (CSCV) Cyclic Differential Pulse Voltammetry (CDPV) Cyclic Square Wave Voltammetry (CSWV) Cyclic Normal Pulse Voltammetry (CNPV) – including Cyclic Reverse Normal Pulse Voltammetry

Galvanostatic Methods: Chronopotentiometry (CP) Current Ramp Chronopotentiometry (CRP) Cyclic Current Ramp Potentiometry (CCP)

Stripping Voltammetry (anodic and cathodic): Stripping Voltammetry (ASV) Differential Pulse Stripping Voltammetry (DPSV) Square Wave Stripping Voltammetry (SWSV)

Data Storage Formats PineChem Setup File (.stp) PineChem Results File (.exp) AfterMath Data Archive (.paax)

  Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes     Yes Yes Yes     Yes Yes Yes Yes Yes Yes Yes     Yes Yes Yes Yes Yes Yes       Yes Yes Yes Yes Yes Yes     Yes Yes Yes Yes Yes     Yes Yes Yes     Yes Yes Yes     Import Only Import Only Yes
[/toggle] [toggle title = “Download Options”] [call_to_action color = “green” button_color = “green” button_url=”https://devnewtheme.pineresearch.com/shop/products/bipotentiostats-2/cbp-bipotentiostat/upgrade-options/cbp-system-upgrade-options/” button_text=”Purchase AfterMath Upgrade” ] PineChem owners can purchase the full version of AfterMath.[/call_to_action] [call_to_action color = “green” button_color = “green” button_url=”https://devnewtheme.pineresearch.com/shop/knowledgebase/pine-aftermath-viewer/” button_text=”Free AfterMath Viewer” ] Alternatively, PineChem owners can download the AfterMath Viewer for free.[/call_to_action] [/toggle]