PEAK ESR60 Electronic Design ESR Meter User Guide

PEAK ESR60 Electronic Design ESR Meter

Product Information

The Atlas GB60/70’9 is an advanced instrument designed and manufactured in the UK. It is specifically designed for the analysis of capacitor equivalent series resistance (ESR) in or out of circuit. The unit is also capable of displaying the capacitance of the device under test, where possible.

ESR (Equivalent Series Resistance) is the value of resistance that is effectively in series with an ideal capacitor. The ESR value is an important parameter for electrolytic capacitors as it affects their performance. Higher ESR can result in poor capacitor performance and increased power dissipation.

Product Usage Instructions

1. Before using the Atlas GB60/70’9, it is recommended to read the notices on page 4 of the user guide.
2. Ensure that any dangerously charged capacitors are safely discharged before connecting them to the unit.
3. Connect the test probes to the capacitor under test. The probes can be connected in any orientation, but in-circuit testing may result in less accurate readings.
4. Make sure that the unit has completed any previous analysis before attaching the test probes to the capacitor. This ensures that the built-in protection circuit is ready for any charge that may be present on the capacitor.
5. Once connected, the Atlas GB60/70’9 will analyze the capacitor’s ESR and, if possible, display its capacitance.

Note: The information provided in this user guide is subject to change without notice. It is important to refer to the most recent version of the user guide for accurate instructions and information.

Want to use it now?
We understand that you want to use your Atlas ESR right now. The unit is ready to go and you should have little need to refer to this user guide, but please make sure that you do at least take a look at the notices on page 4!

Introduction

The Atlas ESR is an advanced instrument designed specifically for the analysis of capacitor equivalent series resistance (in or out of circuit). In addition it will, where
possible, display the capacitance of the device under test.

Summary Features:

• ESR measurement range 0 to 20 Omega (40omega for ESR70). ESR resolution as low as 0.01 Omega.
• Capacitance range 1 friction F to 22000 friction F. Can be used for low-ohms resistance checking too.
• Integrated controlled discharge circuitry reduces the need for the user to manually discharge capacitors before test.
• Use in or out of circuit for ESR and low-ohms resistance measurement.
• The ESR70 features audible alerts for quick user-feedback of ESR test status.
• Automatic analysis start when component is detected. Automatic and manual power-off.

Note: The discharge circuitry exists to ensure that a charged capacitor is less likely to damage the unit. For example, if the capacitor under test has a potential of a few tens of volts across it, the charge is removed automatically. It is the user’s responsibility to ensure that any dangerously charged capacitors are safely discharged before connection to the unit.\

Important Considerations

Please observe the following guidelines:

• This instrument must NEVER be connected to powered equipment components.
• It is the user’s responsibility to ensure that any dangerously charged capacitors are safely discharged before connection to the unit.
• To allow the self-protection mechanism to function, always ensure that the Atlas ESR has completed any analysis before connecting the test probes to a component.
• Failure to comply with these warnings may result in personal injury, damage to the equipment under test, damage to the Atlas ESR and invalidation of the manufacturer’s warranty.
• Avoid rough treatment, hard knocks and extreme temperatures.
• This unit is not waterproof.

Notes on ESR
ESR (Equivalent Series Resistance), as its acronym implies, is the value of resistance that is effectively in series with an ideal capacitor. No capacitor is ideal of course, the detailed equivalent circuit of a typical capacitor is very complex. For many electrolytic capacitors however, the most important parameters regarding the capacitor’s performance is the capacitance and the ESR. An increase in ESR (due to age, abuse or temperature cycling) can result in poor capacitor performance. The capacitor becomes less “ideal” and starts to dissipate more power, an ideal capacitor of course dissipates zero power. Capacitor manufacturers typically quote the SR of their products at 100kHz, which is the same test frequency used by the Atlas ESR. Sometimes, manufacturers quote ESR at 100Hz or 120Hz as the capacitors may be aimed at rectified mains power applications. ESR is generally not frequency dependent however, so it can be reasonably considered equivalent to readings taken at 100kHz.

Analysing Capacitors
The Peak Atlas ESR is designed to analyse capacitor ESR in or out of circuit. The two test probes can be connected to the component any way around. Remember though that in-circuit testing can result in less accurate readings.
Important: To minimise risk of damage to the unit, make sure that the Atlas ESR has completed any previous analysis before attaching the test probes to the capacitor. This ensures that the built-in protection circuit is ready for any charge that may be present on the capacitor.

• The Atlas ESR must first be switched on by briefly pressing the on-test button.
• The unit will start a component analysis when it detects that the open circuit probes have been applied to a component or when on-test button is re-pressed.
• If the capacitor is charged (<50V), the Atlas ESR will attempt to discharge the capacitor while showing the progress of the procedure:
• If the Atlas ESR cannot recognise the component connected to the test probes, or the capacitance is out of range, the following message may be displayed:

The ESR analysis typically takes under 2 seconds to complete, followed by up to around 10 seconds for the capacitance measurement (depending on the characteristics of the capacitor).

• As soon as a valid ESR reading has been obtained, the ESR value is displayed while the instrument proceeds to measure the capacitance.
• If the presence of external circuitry did not adversely affect the capacitance measurement, the capacitor value will be displayed.
• If the capacitance could not be determined (perhaps it is in-circuit or a “leaky” capacitor), the display will only show the value of ESR measured.
• It is not necessary to wait for the capacitance measurement to complete if you’re not interested in the capacitance value. If the probes are removed from the component under test before the capacitance measurement has completed, the display will confirm that the capacitance has not be measured:
• It can be useful to disconnect the probes before the capacitance measurement has completed if you’re wanting to simply check the ESR of multiple components in succession.

In the event that ESR exceeds the maximum that can be measured, the display mav show:

The ESR measurement range is automatically determined during the analysis. Typically, the resolution for ESR measurement is as shown in the table below :

Although the measurement resolution is generally determined by the absolute value of the ESR (as shown in the above table), low capacitance values can result in a poorer ESR measurement resolution.
The maximum ESR measurement is limited to 20 Omega for the model ESR60 and 40 Omega for the model ESR70. If measuring capacitors connected in parallel, the ESR reading will effectively be the value of all the ESRs in parallel, not just the ESR of the capacitor in contact with the probes.

Typical ESR Values

It is not possible to provide a definitive rule for values of ESR that are acceptable for all situations. However, a table of typical ESR figures for a range of capacitance and voltage ratings is shown on the previous page. The expected value of ESR largely depends on the capacitance value and the voltage rating of the capacitor but also depends on temperature ratings and other factors. Some capacitors are manufactured to exhibit very low ESR values, whilst conventional low cost parts are likely to exhibit higher values but still be acceptable. As a guide only, the following log-scaled graph shows “typical” values of ESR for a range of different capacitance and voltage ratings.

Please note that the figures shown on the previous page are only typical figures for standard grade electrolytics at room temperature, please verify readings against expected values for the particular type of capacitor you are testing. For any particular capacitance and voltage rating, a lower ESR reading is generally better than a higher ESR reading. For good quality capacitors it is common for the ESR readings to be much lower than the figures shown in the previous table.

Audible Alerts (Model ESR70 only)
The ESR70 unit can produce audible tones to assist the user. The various tones are summarised below:

You can switch audible alerts on or off by holding down the on-test button for about 2 seconds when powering up the unit from off. Depending on whether the sound function was already on or off, one of the following messages will be displayed to confirm that you have changed the sound mode. Probe Compensation

To ensure good repeatable readings, particularly for low values of ESR, it may be necessary to occasionally perform a simple Probe Compensation procedure. This procedure is easiest to perform with the gold plated croc clips fitted.

1. Ensure the unit is switched off.
2. Press and hold down the on- test button for about 5 seconds until the following message is displayed*:
3. The unit will then ask you to short the probes together (by interlocking the jaws of each croc clip).  Then press the on- test button.
4. After a short delay the display will confirm that the procedure is complete and then switch off.

If the following message is displayed then the probes may not have been correctly shorted during the above procedure This message may also be displayed if any of the probe connections are faulty. It is useful to test the integrity of the probe compensation by measuring a fixed resistor of 1 Omega and 10 Omega to verify the correct ESR reading respectively.  NOTE : For the ESR70, the sound on/off mode will be entered while holding the button down, keep the button held down and the unit will proceed to the probe compensation mode.

Care of your Atlas ESR

The Peak Atlas ESR should provide many years of service if used in accordance with this user guide. Care should be taken not to expose your unit to excessive heat, shock or moisture. Additionally, the battery should be replaced at least every 12 months to reduce the risk of leak damage.

If a low battery warning message appears, replacement of the battery is essential.

Immediate replacement of the battery is EXTREMELY IMPORTANT as the built-in protection mechanism may not function correctly if the battery condition is poor and therefore render your unit susceptible to damage from even low energy charged capacitors. The Atlas ESR will not continue to operate if a low battery condition is encountered. New batteries can be purchased from many retailers and directly from Peak Electronic Design Ltd or an authorized agent.

Battery types: Suitable battery types include 23A, V23A, GP23A, MN21 or a good quality 12V alkaline equivalent as used in many test instruments and automotive remote key fobs.

Battery access: To replace the battery, unscrew the three screws to remove the rear panel. Remove the old battery and insert a new one, taking care to observe the correct polarity. Carefully replace the rear panel, do not over-tighten the screws

Appendix A Troubleshooting

Appendix B  Technical Specifications

All values are at 25°C unless otherwise specified

Notes:

1. Subject to acceptable LCD visibility.
2. Model ESR70 is capable of measuring up to 40 Omega.
3. Maximum abuse voltage rated limitation of internal protection electronics.
   Probes, leads and unit are not certified for high voltage use.

Appendix C – Statutory Information

Peak Warranty If for any reason you are not completely satisfied with the Peak Atlas ESR within 14 days of purchase you may return the unit to your distributor. You will receive a refund covering the full purchase price if the unit is returned in perfect condition. The warranty is valid for 24 months from date of purchase. This warranty covers the cost of repair or replacement due to defects in materials and/or manufacturing faults. The warranty does not cover malfunction or defects caused by:

• a) Operation outside the scope of the user guide.
• b) Unauthorised access or modification of the unit (except for battery replacement).
• c) Accidental physical damage or abuse.
• d) Normal wear and tear.

The customer’s statutory rights are not affected by any of the above. All claims must be accompanied by a proof of purchase. WEEE (Waste of Electrical and Electronic Equipment), Recycling of Electrical and Electronic Products

In 2006 the European Union introduced regulations (WEEE for the collection and recycling of all waste electrical and electronic equipment. It is no longer permissible to simply throw away electrical and electronic equipment. Instead, these products must enter the recycling process. Each individual EU member state has implemented the WEEE regulations into national law in slightly different ways. Please follow your national law when you want to dispose of any electrical or electronic products. More details can be obtained from your national WEEE recycling agency.

At Peak Electronic Design Ltd we are committed to continual product development and improvement. The specifications of our products are therefore subject to change without notice. © 2004/2016 Peak Electronic Design Limited – E&OE Designed and manufactured in the UK
www.peakelec.co.uk
Tel. +44 (0) 1298 70012
Fax. +44 (0) 1298 70046

References

• Welcome to Peak Electronic Design Limited

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