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How To Replace Chart Recorders With Digital DAQ System

Learn how you can replace oscillographic chart recorders with the SIRIUS digital DAQ (Data Acquisition System) to lower costs and reduce maintenance.

In this article you will:

  • See how digital DAQ systems can be easier to use than old-fashioned chart recorders
  • Learn how digital DAQ systems provide enhanced capabilities
  • Understand the advantages of digital DAQ systems, including lower cost and reduced maintenance

Everyone focuses on computer-based DAQ devices today, but there are still test and measurement applications where 1980’s style chart recorders are being used.

Since the 1980s, as most industries moved away from chart recorders and replaced them with PC-based data acquisition products, engineers and technicians in certain applications continued using them. In fact, today you will still find a relatively large number of chart recorders in daily use at many power plants.

Why is this?

nuclear power plant

Power companies (particularly nuclear ones) must document a wide range of parameters according to strict regulations. Chart recorders have long been the main way of documenting these. Forty and fifty years ago, the ability of these instruments to produce a paper output was a real convenience. There were few (if any) notebook computers available for testing, and most engineers didn’t even have a computer at their desks.

Today, computers that are connected (wired and wirelessly) to local and networked printers are everywhere, and accessible to virtually everyone. It’s much less expensive to print charts, graphs, and reports using office printers compared to the proprietary thermal paper that most recorders require. In addition, charts and graphs printed on thermal paper fade away over time and have to be photocopied onto office paper for data preservation.

Despite the fact that the availability of computers has changed dramatically, there is a long history of chart recorder usage at some power companies, which continue using them today. In this article, we will show how these recorders are being replaced with better, smaller, and more modern DAQ systems.

What is a Chart Recorder?

Chart recorders are electromechanical instruments that write data onto a moving strip or a fixed sheet of paper. There are several main types:

  • Strip Chart Recorders
  • Circular Chart Recorders
  • X-Y Recorders
  • Oscillographic Recorders

Strip Chart Recorders

Strip Chart Recorders are low bandwidth and often use colored ink pens to draw signals onto a roll or fanfold paper. Strip chart recorders are often permanently mounted into a panel, although benchtop models are also available for temporary use applications. Strip chart recorders are most often used to record data from electrical signals, temperature, and humidity in manufacturing and process applications.

strip chart recorder
EL3000 strip chart recorder. Image © Chino Corporation

Circular Chart Recorders

Circular Chart Recorders are written onto a single piece of round paper that rotates slowly, usually over a period of days or weeks. These instruments are mostly used for long-term documentation of temperature and humidity in manufacturing and process applications.

circular chart recorder
Circular chart recorder, Arnold Reinhold, CC BY-SA 3, via Wikimedia Commons

X-Y Recorders

X-Y Recorders use one or more pens to draw onto a fixed piece of rectangular paper. Unlike the other types mentioned, they do not plot data against time, but rather they plot one signal versus another. For example, they may be used in a process environment to plot pressure versus deflection, speed versus torque, etc.

X-Y Recorder
7046B Flatbed X-Y Recorder by Hewlett Packard Image © 2022 Recycled Goods Inc.

Oscillographic Chart Recorders

In this article, we are focusing on replacing Oscillographic Chart Recorders, not the lower speed strip chart, circular or X-Y chart types mentioned above. Oscillographic recorders offer relatively high bandwidth and a Y-T presentation of data on moving paper.

Early oscillographic recorders had only a paper output, while today they also provide a video display of the data, and can capture data into RAM memory or a hard disk drive. The paper can be used to print during or after data recording. Some models even forego the paper entirely and are called “paperless recorders.”

Oscillographic chart recorders accept voltage inputs, and may often have signal conditioning circuitry that allows them to handle other physical phenomena, such as temperature, vibration, strain, and pressure. Some models can accept pulse inputs for measuring RPM and event counting applications.

Oscillographic chart recorders are usually configured with 8 or 16 analog signal input channels. Because they handle higher speed data than strip chart recorders, oscillographic recorders typically employ a thermal array printhead that prints the data, text, and even the background grids onto thermally sensitive paper.

Typical oscillographic chart recorder. Image © 2013 Soltec Corporation

Oscillographic recorders are necessarily complex electromechanical devices. Their paper printing mechanisms require maintenance, during which time the instrument can’t produce reports. They also require rolls or packs of proprietary, thermal-sensitive chart paper.

A quick scan on the internet shows that the average price for a 100m (328 ft.) roll or fanfold pack of this paper can cost $50 (or €). This is drastically more expensive than common US letter and A4 size plain office paper.

Today’s chart recorders have incorporated a computer, hard disk storage, and a flat panel display into their chassis. This is fine, except that these are exactly the components that become obsolete very quickly, and which are virtually impossible to replace or upgrade in these instruments.

Chart recorders are a familiar solution. They’ve been around for a long time. But there is a better way that costs less, and which provides a long list of advantages.

The SIRIUS® Digital Data Acquisition System

The SIRIUS DAQ system from Dewesoft is a small, eight-channel DAQ module that connects to any Windows computer via USB. Each input channel is galvanically isolated, which means that the isolation is between channels and between channel and ground.

SIRIUS DualCore® amplifiers have two A/D converters running in parallel at different gains. This guards against unexpected signal level changes and increases the dynamic range to a previously impossible level greater than 160 dB.

A SIRIUS modular “slice” is only 2.54 inches tall (64.5 mm), and 10.5 inches (266 mm) wide. Each SIRIUS slice is carved out of a single block of aluminum on a CNC machine. They are made to withstand the shock and vibration that is common in DAQ applications.

The small size and mass, and lack of moving parts of the SIRIUS DAQ hardware make it inherently more rugged than chart recorders. And because today’s notebook and desktop computers are so powerful yet inexpensive, by removing those functions from the DAQ hardware, their cost and complexity are further reduced. Also, without the computer hardware onboard, SIRIUS is less likely to become obsolete over time. It’s much easier and less inexpensive to replace the computer from time to time than to invest in a new DAQ system.

A standard DualCore® SIRIUS slice can be configured with any eight high-speed amplifiers. There are amplifiers available for:

  • High voltage (selectable ±1200 V and ±50 V)
  • Low voltage (selectable ±200 V, ±10 V, ±1 V, ±100 mV)
  • “UNI” (universal) inputs, including strain, pressure, voltage, IEPE acceleration and vibration, resistance, temperature, and more
  • Note that many amplifiers accept DSI adapters for even more sensor types, like current, LVDT, thermocouples, RTD sensors, and more.
  • IEPE accelerometers or microphones
  • Polarized condenser microphones
  • Charge accelerometers

Connectors are matched to the input type, so for example, high voltage inputs always use insulated safety banana jacks. Low voltages can be banana jacks, BNC, LEMO, or DB9 connectors. IEPE accelerometers typically use BNC connectors, and strain gauges/universal inputs use multi-pin connectors like DB9 or LEMO, and so on.

In addition, SIRIUS amplifiers can be configured with individual counter inputs for RPM, tacho, and other measurements like duty cycle, incremental encoders, and event counting.

Comparing a Typical Oscillographic Chart Recorder with SIRIUS

chart recorder vs digital DAQ system

Easy Computer Operation

The SIRIUS includes a license for DewesoftX software, which is included at no cost. This DAQ software has won numerous awards all around the world for its ease of use and graphical nature. DewesoftX is installed on your Windows computer, which connects to the SIRIUS via a single USB cable, creating a complete measuring system. Because the license is inside the SIRIUS hardware, you can install the software on multiple computers and use any of them for recording, without licensing issues.

So, each user can connect their own computer to operate the SIRIUS, if they want to. You may also wish to use one dedicated computer to run the SIRIUS, but then move the data to your desktop computer for replay, analysis, and report generation. There is no license required on computers used for this purpose.

dewesoft x | DAQ System Software
Graphical channel setup screen in DewesoftX

DewesoftX provides a graphical channel setup. There are no buttons or switches on the SIRIUS hardware: everything is done in the software, including range and filter selection, acquisition speed, triggering, and more.

Once the channels are set up, the software automatically creates a chart recorder view like the one shown below:

chart recorder | DAQ System Software
Standard chart recorder screen in DewesoftX

You are free to create other displays, using a wide variety of graphical widgets, like analog and digital meters, scope graphs, and more.

user configurable displays | DAQ System
Unlimited user-configurable displays in DewesoftX

You can even create displays that are intended for printing on your black and white or color office printers, for report generation:

printable reports | Digital DAQ System
Printable reports are easy to create in DewesoftX software

High Voltage and High Isolation

In power applications, isolation is extremely important. The SIRIUS HV (high voltage module) directly accepts voltages up to ±1200 V, and is galvanically isolated.

The SIRIUS HV amplifier provides over-voltage protection of 1.8 kV RMS (IN+ to IN-), and 1.4 kV RMS (INx to GND). It is isolated to 1000 V under CAT II, and 600 V under CAT III.

Even the SIRIUS LV low voltage module, which accepts signals from ±100mV to ±200V, is galvanically isolated to 1000V, with over-voltage protection up to 300 V when in the ±200V measuring range.

There are other SIRIUS DualCore amplifiers made to handle other signals and sensors. These include strain gauges, accelerometers, microphones, LVDTs, thermocouples, RTDs, and more. They also include 1000 V galvanic isolation.

Advanced Triggering

One of the most important features of power plant applications is triggering. This is often used in looking for breaker faults and trips. Instead of continuously recording for hours or even days in order to capture a breaker trip, you can configure the system to record only when the breaker actually does trip.

This saves disk space by only capturing the data that you need. The system uses a circular buffer while it’s waiting for the fault, so it can be configured to capture a certain amount of data before the event, and then a certain amount of time after the event. You can set it to capture once and stop or to reset itself automatically and capture any number of events.

breaker test setup | Digital DAQ System
Typical breaker test setup, incorporating video

Adding Video to Your Data

Applications such as PRV (pressure relief valve) testing, can benefit from the video being added to the recording. For simple applications, a standard office webcam can be connected to the computer that is controlling the SIRIUS DAQ system. These DirectX webcams are a very inexpensive way to add a visual reference to any test. They are not terribly fast, however, and they are software synchronized.

When higher speed, hardware synchronized video is needed, you can choose from a selection of DS-CAMs and add them to your system.

DS-CAM | Digital DAQ System
Dewesoft DS-CAM high-speed synchronizable video camera with on-board compression

DS-CAM cameras provide high-speed video with up to 333 fps (frames per second) at full HD resolution. Lowering the resolution allows you to achieve up to 600 fps. DS-CAM cameras have onboard, real-time JPEG compression that allows real-time streaming directly to the computer’s hard drive. Unlike webcams, DS-CAMs are hardware synchronized frame by frame to the SIRIUS chassis using a thin sync cable.

Expanding Your SIRIUS DAQ System

When more than eight high-speed analog channels are needed, additional SIRIUS slices can be added to the system. They are synchronized with each other and connected to the same computer. They can even be interlocked and stacked together, or kept separate, as required.

Ruggedized USB hubs are available so that you can add more SIRIUS slices than you have USB ports for. You can connect SIRIUS slices together to create a system with more than 100 high-speed channels!

Sirius DAQ System
Three SIRIUS slices are connected together using built-in locking clips, creating a system with 32 analog channels and multiple digital inputs

Summary

As the era of the oscillographic recorder draws to a close, engineers and technicians must find a replacement that not only does the job, but is affordable, rugged, easy to use, and expandable.

A single SIRIUS slice combined with a notebook (or desktop) computer running DewesoftX software is the ideal replacement. It meets all of the requirements and goes further, adding modular and inexpensive channel expansion and synchronized video recording capabilities. It represents the optimal way to replace those old oscillographic chart recorders, save money, and move your testing to the next level.

About Dewesoft

Dewesoft proudly develops and produces data acquisition, test and measurement instruments that are used in the most advanced labs all over the world for developing rockets and satellites ensuring fast worldwide communication, new safer vehicles and products that are improving our everyday lives.

The Dewesoft vision is to be the customer’s first choice in mission-critical test and measurement equipment created for maximum effectiveness and with stunning design. Thanks to their reputation and a strong sales network, the company can offer employees many opportunities to work on the most eminent projects.

manufacturers rep

RYAN CHRISTIAN

President, Field Sales Engineer

Cell Phone: 480-577-7172
Email: [email protected]

Ryan was raised in Mesa, Arizona, attended Gilbert schools and graduated from ASU in 2006 with a Bachelors in Interdisciplinary Studies. He went on to complete his MBA at the University of Phoenix Campus in Mesa. Prior to VMA, Ryan worked 5 years as a consumer sales consultant and then 5 years as Program Analyst at Orbital Sciences, now Northrop Grumman.   Outside of the office, Ryan loves to spend time with his wife, 12yr old daughter and twin 7 year old boys. Ryan loves to get outdoors to hunt & fish as often as possible, serves frequently with kids and adults at church and enjoys quality BBQ time with his friends and family. Ryan is located in our Arizona office.

Natalie Myers

Inside Sales Administration

Natalie Myers joined Vic Myers Associates in September 2021 and is excited to be part of the team. She received her bachelor’s in business administration from the University of Phoenix and prior to her position as Inside Sales Administration she worked in the Hospitality Industry for over 15 years as a Senior Sales Administrator. In her free time, she enjoys spending time with her husband, daughter, family and friends along with watching sporting events, traveling, hiking and cheering on her daughter in dance and basketball! Natalie is located in our Arizona office.

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