Tag Archive | "U1272A"

Review: Agilent U1177A IR to Bluetooth Adaptor

In this review we examine the new Agilent U1177A infra-red to Bluetooth adaptor for the Agilent  U1272A DMM. You can also use the adaptor with the U1240-series DMMs with the optional adaptor. With some PC or Android device software you can monitor or log data from up to three DMMs. So let’s have a look and see what it’s all about.

Introduction

The adaptor arrives in a small box:

… with the following contents:

It was a relief to see the AAA cells included as we didn’t have any in stock. The yellow document is the China RoHS sheet, and the instructions are short but well detailed. The unit itself is quite small:

To fit the battery or reset the device, the front cover slides open revealing the innards to some degree:

and the rear:

The unit clips soundly to the rear of the DMM, however it does stick out quite a lot:

If you need to leave the meter unattended, you’ll need a level and vibration free surface, as the adaptor can be knocked out relatively easily from the top. The adaptor also blocks the hole at the back which some users may use with a hook or loop for positioning the DMM.

Software and Operation

You can use the U1177 with two platforms – Android and Windows, and we tested both. I’m sure if you have Mac Parallels, etc., that there may be some success there but I haven’t tested them. There are two applications available for Android devices – the mobile logger and mobile meter. You can download them both from the Google Play app – just search for ‘agilent‘, and the results should be

The third app is a game that is somewhat entertaining. We tried the applications on two Android devices – a HTC Velocity running Android 4.0.3 (which failed miserably, the software kept freezing) and a Motorola Xoom MZ601 with Android 3.2. I would say now that the software is marked “Beta” so caveat emptor. The data logging software worked on the Xoom but not the “Agilent Mobile Meter”. Moving forward, the logging software is quite good – you can display a graph, table or statistical value of the incoming data from up to three separate DMMs.

Below is a rough video of using the Xoom with data logging. We first make the Bluetooth connection, then measure resistance of a 1k ohm logarithmic pot, change the view to data table, then stop the logging and email the data. The app can email a .csv file which can be opened with any spreadsheet, etc. Using the app you can label each DMM feed to avoid confusion with the data files in the future.

Using the U1177A with a Windows 7 x64 machine was a lot more successful. You can download the Windows-based software from here (97 MB). After pairing the adaptor with the bluetooth connection software, the Agilent software loads but does not connect. You need to alter the data speed to 19200bps and select the COM port from the drop-down list in the “communication settings” on the left-hand side of the window, as shown below:

You can also use terminal software and AT commands to change the parameters of the U1177A, which is described in the user manual. Moving forward, once connected you can measure and log to your heart’s content. You can display a virtual meter:

8

Or choose a graphing display mode:

9

Note the short drop in value to zero as the graph increased on the far-right of the measurement in the image above. This occurs when the meter is changing range, just as the LCD will blink off then on due to the same phenomenon. Finally, you can also display the data as a table, for example:

10

Finally, you can export the data to a .csv file which can be opened with the usual spreadsheet or text editing software:

11

Using Windows OS Remote Multimeter Use Data Logging Other connection – hyperterminal etc. 

Conclusion

For data logging to a PC that is in Bluetooth range, the U1177A fits the bill. Although you can get a serial to IR cable (and early U1272A owners should have received one when the firmware update was released), the Bluetooth module will certainly be useful when moving around a worksite, or taking remote measurements from extreme temperature or NVH environments. The Android apps need to move out of beta stage – however due to the variety of devices and OS versions in the market this may be a long journey. However considering the price (~Au$52) it is inexpensive enough to keep around just-in-case.

Note – the U1177A was purchased by myself and reviewed without notice. Residing in Australia, ours was purchased from element14.com.

In the meanwhile have fun and keep checking into tronixstuff.com. Why not follow things on twitterGoogle+, subscribe  for email updates or RSS using the links on the right-hand column? And join our friendly Google Group – dedicated to the projects and related items on this website. Sign up – it’s free, helpful to each other –  and we can all learn something.

Posted in agilent, android, bluetooth, multimeter, product review, review, test equipment, U1177A, U1272AComments (2)

Review – Agilent U1272A True-RMS Digital Multimeter

This is our review of the Agilent Technologies U1272A water and dust resistant digital multimeter. It’s an extremely well specifed instrument, and according to the Agilent promotional material a better alternative to the venerable Fluke 87V. We also have examined the Bluetooth module.

Initial impression

The retail box as always is impressive and well decorated. Opening it up reveals a range of items:

contentsss

including the meter itself, a calibration certificate and calibration results sheet, probe set, thermocouple, quick start guide and four AAA cells. It was a little disappointing to not find alligator clip adaptors nor a carrying case. For those interested, a full range  of documentation is available here.

The meter measures 207 x 92 x 59 mm (hwd) and is quite solid, not too heavy and surrounded by a good orange non-slip rubber layer. This no doubt helps provide some shock resistance, as this unit has survived a 2.5 meter drop from my ceiling to the concrete. It is refreshing to see that the keypad is laid out in an organised way, much better than the random-looking layout on the U1250 series:

meterss

The meter

Installing or changing the the battery (four AAA cells) is easily accomplished, and thankfully the fuses are also in the same compartment. The included AAA cells are thecheaper “GP brand”, and should do for the first few months. The dust and moisture protection is evident as shown by the o-ring seal around the perimeter of the compartment:

batteryfusecompartmentss

As mentioned earlier, the U1272A is water and dust resistant to IP54 specifications – 54 meaning “protected against dust limited ingress”/”protection against water sprayed from all directions – limited ingress permitted.”.

For more information about IP ratings and what they all mean, check out this IP-rating chart.

It is possible to turn the function selector with one hand whether you have the meter standing up or laying on your desk. The included test leads are just over 1200mm in length and are rated at Cat III 1000V, 15A. Two pairs of probes are included, with 4mm and 19mm tips:

leadsprobesss

Again, it is unfortunate that alligator-clip adaptors nor probes are included – these are very useful especially to those who are colourblind and need to sort resistors or measure tiny through-hole capacitors. Furthermore, a K-tyle thermocouple and non-compensation transfer adaptor are also included:

thermocoupless

The thermocouple’s temperature range is -20~200 degrees Celsius, however with an optional thermocouple the maximum temperature can be increased to 1200 degrees C. As for the othermeasurement ranges, they are detailed in the data sheet which you can download here (.pdf).

Furthermore there is a diode test  function, and a continuity beeper. The backlight also flashes when using the continuity function which would be very convenient for those working in a noise environment. There has been some discussion around various forums as to the speed of the continuity function, so here is a small video demonstration of it in action:

In use

Although readers would not have any problem using the meter without reading the manual, doing so will illustrate the particular features of the U1272A as well as operation of the menu system that allow various settings to be changed. These can include: beep frequency (!), backlight duration, data communication parameters, default temperature units, scale conversion values, and activating the low-pass filter available when measuring DC voltage and current.

At the risk of shortening the battery life, I extended the backlight duration immediately to thirty seconds; and set temperature units to degrees Celsius. When taking measurements that only require the main numeric display, the ambient temperature is shown in the secondary numeric display. I must admit to discovering another feature by accident, if the leads are in the current and COM terminals and you select a non-current measurement function – the meter will beep like crazy, blink the backlight and show an error message. This is useful when you’re tired and probably should be doing something else.

Measuring AC voltage provides various data upon request. Apart from the RMS voltage value, you can also turn on a low-pass filter which blocks unwanted voltage above 1 kHz.

The frequency measurement function allows the display the frequency, duty cycle and pulse-width when measuring AC or DC current or voltage. Furthermore, you can display both voltage/current and also display the frequency, pulse-width and duty cycle at the same time, for example:

freqvoltss

In a previous article the U1272A was used to measure frequency and duty cycle, which you can observe in the following short clip:

Measuring DC voltage is straightforward, and there is also the option to measure both AC and DC components and display them combined or separately, for example:

acvoltdcoffsetss

You can also display voltage as a decibel value relative to 1 mW (dBm) or a reference value of 1V (dBv). And the dB reference impedance can also be set to fall between 1 and 9999 ohms. Another interesting voltage measurement function is “Zlow”. Using this function, the meter changes to a very low input impedance, and can remove “ghost” voltages from the measurement by dissipating the coupling voltage. This function can also be used to test if a battery is still usable, if the voltage of the battery under test decreases slowly, it doesn’t have the capacity to deliver the required voltage. However I wouldn’t put a battery under this test method for too long due to the meter acting close to a short circuit.

Measuring resistance is simply done with the U1272A, and for more precise measurements one can short the probes to measure their resistance then set a null point so your measurements will not be affected by probe resistance. There is also an Agilent feature called SmartOhm which can be used to remove unexpected DC voltages that can add errors to resistance measurements. You can also use SmartOhm to measure leakage current or reverse current for junction diodes. I look forward to spending more time examining SmartOhm.

Furthermore, one can also measure conductance (the reciprocal of resistance) which is measured in Siemens. According to the manual one can measure extremely high resistance values up to 100 gigaohms. Interesting.

Diode measurement works as expected, the standard setting displays the voltage drop across the diode. However by pressing Shift on the meter, you can use the “Auto-diode” function which forward and reverse bias simultaneously using both numeric displays. For example, measuring a 1N4004 diode produces the following display, the forward voltage and the Good/Not good result:

autodiodess

Measuring capacitance is also quite simple, and the manual recommends setting a null value while the probes are open to compensate for residual capacitance. Interestingly the LCD shows when it is charging and discharging the capacitor under test, using the following segments:

capsegss

Temperature measurement is possible with the included thermocouple and adaptor. Note that the included K-type thermocouple is only rated for up to 200 degrees Celsius, however with an optional unit the meter can measure up to 1372 degrees C. The display can show Fahrenheit as well as Celsius. The meter also shows ambient temperature using the secondary numeric display when it is not in use with other measurement display functions. Finally, measuring AC or DC current is completed as expected, and as noted earlier when switching to another non-current function, the meter will remind you to change the positive lead.

Compared to other meters, there are a few things that irritated me slightly with this unit. The auto-ranging can be somewhat slower than other meters, especially the frequency measurement – it can take around four seconds to measure a constant frequency… my old Tektronix CFC-250 is faster than that. And the exclusion of alligator-clip adaptors and case was disappointing considering the price of the meter. However on a positive note, the meter is supplied with minimal paper documentation, and a full range of manuals, service guides and so on are available for download from the Agilent website.

Update – 14th June 2011

Turns out that many people had similar (and other problems) to myself with their U1272A. They can be solved by updating the firmware via the USB cable. Agilent will send owners of early versions with the affected firmware a free USB cable in order to fix it up. Download this .pdf file with the instructions on how to receive the cable.

Update – 20th June 2011

The USB>DMM cable has arrived and the firmware updated to v2.0. The meter now works as expected – very well. Kudos for Agilent for taking ownership of the problem and sorting it out so rapidly.

Over the last three months I have been using the U1272A and would call it a success. The dual line LCD display really is useful, as well as the low current measurement and especially the Zlow function. There is a short video you can watch that explains a few of the unique features very well. Furthermore, there is a distinct lack of fragility which gives you one less thing to worry about when looking after your tools. Finally there is also the data-logging, however this does require an optional cable. If you are in the market for a full-function electronics multimeter, put this meter on your evaluation list.

As always, thank you for reading and I look forward to your comments and so on. Furthermore, don’t be shy in pointing out errors or places that could use improvement. Please subscribe using one of the methods at the top-right of this web page to receive updates on new posts, follow on twitter, facebook, or join our Google Group.

High resolution images are available from flickr.

[Disclaimer – the Agilent U1272A in this review is a sample made available by Agilent Technologies via element-14]

Posted in agilent, android, bluetooth, multimeter, review, test equipment, tutorial, U1177A, U1272AComments (2)

Review – CD4047 Astable/Monostable Multivibrator

Hello readers!

Today we are going to examine an older but still highly useful integrated circuit – the 4047 Astable/Monostable multivibrator:

4047icsss

My reason for doing this is to demonstrate another way to create a square-wave output for digital circuits (astable mode) and also generate single pulses (monostable mode). Sometimes one can get carried away with using a microcontroller by default – and forget that there often can be simpler and much cheaper ways of doing things. And finally, the two can often work together to solve a problem.

What is a multivibrator? In electronics terms this means more than one vibrator. It creates an electrical signal that changes state on a regular basis (astable) or on demand (monostable). You may recall creating monostable and astable timers using the 555 timer described in an earlier article. One of the benefits of the 4047 is being able to do so as well, but with fewer external components. Here is the pinout diagram for a 4047 (from the Fairchild data sheet):

Note that there are three outputs, Q, Q and OSC out. Q is the normal output, Q is the inverse of Q – that is if Q is high, Q is low – at the same frequency. OSC output provides a signal that is very close to twice the frequency of Q. We will consider the other pins as we go along. In the following small video, we have LEDs connected to all three outputs – you can see how Q and Q alternate, and the increased frequency of OSC out:

That was an example of the astable mode.  The circuit used is shown below. The only drawback of using a 4047 is that you cannot alter the duty cycle of your astable output – it will always be 50% high and 50% low. The oscillator output is not guaranteed to have a 50% duty cycle, but comes close. The time period (and therefore the frequency) is determined by two components – R1 and the capacitor:

[Quick update – in the schematic below, also connect 4047 pin 14 to +5V]

astabledemo

The values for R2~R4 are 560 ohms, for the LEDs. R1 and the capacitor form an RC circuit, which controls the oscillation frequency. How can we calculate the frequency? The data sheet tells us that time (period of time the oscillator is ‘high’) is equal to 4.4 multiplied by the value of R1 and the capacitor. As the duty cycle is always 50%, we double this value, then divide the result into one. In other words:

And as the frequency from the OSC out pin is twice that of Q or Q, the formula for the OSC out frequency is:

However the most useful formula would allow you to work with the values of R and C to use for a desired frequency f:

When calculating your values, remember that you need to work with whole units, such as Farads and Ohms- not microfarads, mega-ohms, etc. This chart of SI prefixes may be useful for conversions.

The only thing to take note of is the tolerance of your resistor and capacitor. If you require a certain, exact frequency try to use some low-tolerance capacitors, or replace the resistor with a trimpot of a value just over your required resistor value. Then you can make adjustments and measure the result with a frequency counter. For example, when using a value of 0.1uF for C and 15 k ohm for R, the theoretical frequency is 151.51 Hz; however in practice this resulted with a frequency of 144.78 Hz.

Don’t forget that the duty cycle is not guaranteed to be 50% from the OSC out pin. This is shown in the following demonstration video. We measure the frequency from all three output pins, then measure the duty cycle from the same pins:

(The auto-ranging on that multimeter is somewhat annoying).

Now for some more more explanation about the 4047. You can activate the oscillations in two ways, via a high signal into pin 5 (pin 4 must then be low) or via a low signal into pin 4 (and pin 5 must be low). Setting pin 9 high will reset the oscillator, so Q is low and Q is high.

The monostable mode is also simple to create and activate. I have not made a video clip of monstable operation, as this would only comprise of staring at an LED. However, here is an example circuit with two buttons added, one to trigger the pulse (or start it), and another to reset the timer (cancel any pulse and start again):

[Quick update – in the schematic below, also connect 4047 pin 14 to +5V]

4047monoschematic

The following formula is used to calculate the duration of the pulse time:

Where time is in seconds, R is Ohms, and C is Farads. Once again, the OSC output pin also has a modified output – it’s time period will be 1.2RC.

To conclude, the 4047 offers a simple and cheap way to generate a 50% duty cycle  square wave or use as a monostable timer. The cost is low and the part is easy to source. As always, avoid the risk of counterfeit ICs and get yours from a reputable distributor. Living in Australia, mine came from element-14. Thanks to Fairchild Semiconductor for product information from their 4047 data sheet.

Have fun and keep checking into tronixstuff.com. Why not follow things on twitterGoogle+, subscribe  for email updates or RSS using the links on the right-hand column, or join our Google Group – dedicated to the projects and related items on this website. Sign up – it’s free, helpful to each other –  and we can all learn something.

Posted in 4047, education, learning electronics, lesson, part review, tutorialComments (41)


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