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                                             Number 810


Application Note                            Optimizing Switch/Read Rates with
          Series                            Keithley Series 2000 DMMs and
                                            7001/7002 Switch Systems
Introduction
                                                                                                                                         DUT
       The period of time an instrument requires to perform a
specific measurement is only one factor in the overall equation
of test system timing. Typical testing applications often require
measuring several points of the DUT with the same instrument,                 DMM                          Switch                        DUT
such as a multimeter. A multiplexer is typically used to switch
the test signals automatically from point to point. Multiplexing
can be done with relays or solid-state switching devices. The
switching devices are normally housed in a mainframe that pro-                                                                           DUT
vides the card cage facility, drive lines and test instruction para-
                                                                       Figure 1. DMM/Switch Configuration
meters. Keithley offers a variety of flexible measurement and
switching solutions for these multipoint testing applications,
including the Series 2000 line of digital multimeters and Model        Integration rate--The integration rate is the time it takes the
7001 and 7002 switch mainframes.                                       A/D converter to "look" at the input signal. The integration time
                                                                       affects the usable resolution, the amount of reading noise, and
       The rate at which a test is performed is crucial to test        the ultimate reading rate of the measurement. The optimum inte-
engineers because the faster the test is completed with reliable       gration time setting for a given application depends on the mea-
results, the more devices that can be tested in same period of         surement requirements. If speed is the most important considera-
time. Manufacturing/production facilities are always seeking opti-     tion, then the smallest integration rate would be used (0.01
mum speed in their test systems. This application note addresses       power line cycles or PLCs) at the expense of additional reading
the factors that affect test system speed. These factors are           noise and less usable resolution. For maximum common mode
generally additive, but their effect on total system speed varies.     and normal mode rejection, the larger integration rate would be
       Test engineers use the word "throughput" to define overall      used (up to 50 PLCs). This would produce the most stable, accu-
system speed. Throughput encompasses a variety of factors,             rate and highest resolution readings. See Tables 1 and 2 for inte-
including measurement source and sense times, and switch               gration selections for Series 2000 DMMs.
settling, actuation, and trigger actuation times.
                                                                       Table 1. Model 2000 and 2010 Integration Selections
                                                                                        Fast            Medium             Slow            Settings
Test System Configuration                                              Model        (Front Panel)     (Front Panel)    (Front Panel)      (Remote)
                                                                       2000                 0.1            1.0               10          0.01--10.00
       Although test systems may be configured with many
                                                                       2010                 0.1            1.0                5          0.01--10.00
devices, for the purposes of this application note, we will consid-
er a test system consisting of a digital multimeter and a switch-      Table 2. Model 2001 and 2002 Integration Selections
ing device. The system may connect these devices through sever-        Model*       Fast          Medium      Normal       HI Accuracy    Settings
al ports, such as external trigger lines, input/output signals, and
                                                                       2001          0.01           0.1          1.0              10     0.01--10.00
remote control connections (GPIB, RS-232, etc.) Figure 1 illus-
                                                                       2002          0.01           0.1          1.0              10     0.01--50.00
trates a typical DMM/Switch-based test system.
                                                                       *All settings available on front panel and remote

DMM Configuration                                                      Ranging--All published measurement rates are stated with a
       The time required to make the measurement itself is the         fixed measurement range. Autoranging should not be used when
first major factor in overall system throughput. When using a          optimum speed is required. While some meters have fast
multimeter, several parameters can affect the measurement              autoranging features, the actual speed is not predictable. Fixed
speed. While most multimeters have control over many of these          range is the only way to ensure timing precision.
parameters, some of the more "basic" units do not. However, the        Filter--All rates are stated with all filters turned off. Although
factors are the same for the simplest meter or for the most com-       filtering stabilizes noisy measurements, it also slows the rate of
plicated one. It is the level of control of these parameters that is   measurement. The Keithley 2000 Series meters all have digital
important for exact measurement timing.                                filters, which are based on reading conversions. With a digital
filter, a DMM takes a number of conversions and averages them
before displaying the result. The number of conversions is the
largest factor affecting rate when using filters. As the number of
conversion averaged increases, the rate decreases.                                                       Signal
                                                                                                       Integrate
        DMMs typically offer two types of filters (Figure 2):
        Repeating Filter--A repeating filter takes a selected num-
        ber of reading conversions, averages them, and yields a
        reading. The filter is then cleared and starts collecting con-                                 Reference
                                                                                                       Integrate
        versions all over again.
        Moving Filter--A moving filter is a first-in/first-out stack;
        in other words, the newest reading conversion replaces the
        oldest. An average of the stacked reading conversions                                            Zero                                   Signal
                                                                                                       Integrate                              Integrate
        yields a reading. Therefore, after a selected number of con-
        versions, a moving filter gives a new reading for every
        new conversion.
       The time to the first reading is the same for both types of                                     Calculate                              Calculate
filters. After the first reading, the moving average filter produces
a faster rate than the repeating filter.

A. Type: Moving Average, readings = 10                                                                   Auto Zero ON                           Auto Zero OFF
 Conversion                       Conversion                      Conversion
              #10                              #11                             #12
              #9                               #10                             #11                Figure 3. Typical A/D Conversion Period
              #8                               #9                              #10
              #7                               #8                              #9
                    Reading #1                       Reading #2                      Reading #3
              #6                               #7                              #8
              #5                               #6                              #7
              #4                               #5                              #6
              #3                               #4                              #5
                                                                                                  Zero Integrate           This is how long the meter "looks" at the
              #2                               #3                              #4
              #1                               #2                              #3                                          internal zero. This allows re-zeroing the
 Conversion                       Conversion                      Conversion
                                                                                                                           input amplifier. This is designed to keep
                                                                                                                           the signal from drifting over the course of
B. Type: Repeating, readings = 10                                                                                          several conversions.
 Conversion                       Conversion                      Conversion
              #10                              #20                             #30
              #9                               #19                             #29                Calculate                This is the period in which the meter
              #8                               #18                             #28
              #7                               #17                             #27                                         firmware calculates the measurement.
                    Reading #1                       Reading #2                      Reading #3
              #6                               #16                             #26
              #5                               #15                             #25                                         It is normally a very small portion of the
              #4                               #14                             #24
              #3                               #13                             #23                                         overall conversion.
              #2                               #12                             #22
              #1                               #11                             #21
 Conversion                       Conversion                      Conversion                             With Autozero enabled, the A/D conversion sequence
                                                                                                  includes all four periods. With Autozero disabled, the A/D con-
Figure 2. Filter Types                                                                            version does not go through the zero integrate or reference inte-
                                                                                                  grate periods. Therefore, the conversion period is much shorter
Autozero--Normally, every A/D conversion has four distinct                                        and the measurement speed is increased. However, it also means
periods, as described below. Disabling the Autozero function                                      the meter is not checking reference or zero in the A/D conver-
eliminates two of these four periods, enhancing measurement                                       sion, so the reading could drift slightly after a period of time.
speed.                                                                                            The actual drift is a result of small changes in the temperature
Signal Integrate                 During this period, the A/D converter                            of the measurement circuitry. To avoid this drift, keep Autozero
                                 "looks" at the input signal. The signal inte-                    enabled until just before the actual measurement sequence is per-
                                 grate period is essentially the PLC setting.                     formed. Re-enable Autozero once the measurement sequence is
                                                                                                  completed. This technique keeps the measurement circuitry on
Reference Integrate This is the length of time that the meter
                                                                                                  track before and after the measurement. As long as the measure-
                    "looks" at the internal reference signal.
                                                                                                  ment does not last too long, e.g. longer than ten minutes
                    This allows a reference to compare the
                    input signal with a known level.                                              (depending on the meter used), the readings shouldn't drift
                                                                                                  enough to affect the accuracy of the measurement.
Trigger Delay--In a multiple channel test system, a relay is          Switch configuration
used to make the connection to various signals. Relays normally
                                                                            The next factor affecting test system speed is the switching
have bounce or settle times of several milliseconds. Starting the
                                                                      time. The switching time is the time it takes to disconnect one
A/D conversion before the signal is settled could result in a
                                                                      signal and connect another one to the measurement instrument.
noisy measurement. The trigger delay is the period from when a
                                                                      Three factors affect switching time (Figure 5). All three factors are
trigger is received to the time the meter starts the A/D conver-
                                                                      additive in the switch configuration calculation of switch speed.
sion (Figure 4). This delay is generally used to allow the input
signal to settle before starting the A/D conversion. Keithley's       Settle Time           The time it takes for the switching device to
Series 2000 meters have settable trigger delays, which, if applied                          settle. A relay, for example, has a settle time
carefully, can help optimize measurement integrity and speed.                               specification of 3ms.
                                                                      Actuation Time        The time required for the switching main-
                                                                                            frame to start closing the switch. The Model
                                                                                            7001 and 7002 have actuation times of 6ms.

     Trigger                                                          Trigger Execution The maximum time from activation of
                                                                      Time (Trigger     Trigger Source to start of switch open or
                                                                      Latency)          close. In general, this is several hundred
                                                                                        microseconds.

   Measure




                                                                                                  Trigger Execution Time
                              Trigger Delay


Figure 4. Trigger Delay

Function--The measurement function to be performed (DCV,                                                  Actuation Time
ACV, etc.) is a factor in the measurement rate because each
function is measured using a different technique. In general, the
resistance function takes longer to complete a measurement than
the DCV function, which is simply a single A/D conversion
sequence per measurement. In contrast, the Resistance function                                                        Settle Time
could require several A/D conversion sequences per measure-
ment. If a meter measures temperatures using RTDs or ther-
mistors as temperature sensors, that temperature measurement
function is usually the meter's slowest function. Typically, DCV                              Total Switch Time
measurement is usually the meter's fastest function.
Display--Updating the meter's front panel display takes time, so      Figure 5. Switching Times
turning off the display allows the meter to complete the measure-
ment task faster, particularly meters with information-intensive            Total system speed is equal to the DMM configuration
displays. These meters typically take up to 5% more time to           factors plus the Switch configuration factors. For example, to
update the display. In systems where speed is critical, the display   switch and measure six DC voltages:
should be disabled.
                                                                      Model 2001
      In applications where it's necessary to see the display, the
following technique can be used to optimize speed.                          



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