Northrop Grumman VP Meter Reader, Versa Probe User Manual VPmanual

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Date Submitted	2002-07-29 00:00:00
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NORTHROP GRUMMAN
Commercial Information Services
3910 Sorrento Valley Boulevard, Suite A
San Diego, CA 92121
1-800-453-0661
VersaProbe
™
Meter Reader
USER’S GUIDE
July 18, 2002
TABLE OF CONTENTS
TITLE
PAGE
1.0
VersaProbe™ Environmental Considerations .............................................3
2.0
VersaProbe™ Operations...........................................................................3
3.0
Selecting VersaProbe™ Encoder Protocols .................................................4
4.0
AutoSense Mode Selection .........................................................................6
5.0
Reading Meters with the VersaProbe™ ........................................................7
5.1
The Reading Procedure ...................................................................7
5.2
Stored Readings..............................................................................8
6.0
Recharging the VersaProbe™ Battery Pack..................................................10
7.0
Sensus SmartGun™ Emulation Mode ..........................................................10
This device complies with Part 15 of the FCC Rules. Operation is
subject to the following two conditions: (1) this device may
not cause harmful interference, and (2) this device must accept
any interference received, including interference that may cause
undesired operation.
This equipment has been tested and found to comply with the
limits for a Class B digital device, pursuant to Part 15 of the
FCC Rules. These limits are designed to provide reasonable
protection against harmful interference in a residential
installation. This equipment generates, uses and can radiate
radio frequency energy and, if not installed and used in
accordance with the instructions, may cause harmful interference
to radio communications. However, there is no guarantee that
interference will not occur in a particular installation. If
this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the
equipment off and on, the user is encouraged to try to correct
the interference by one or more of the following measures:
-- Reorient or relocate the receiving antenna.
-- Increase the separation between the equipment and receiver.
-- Connect the equipment into an outlet on a circuit different
from that to which the receiver is connected.
-- Consult the dealer or an experienced radio/TV technician for
help.
Changes or modifications to the VersaProbe not expressly approved
by Northrop Grumman could void the user's authority to operate the
equipment as a Class B device under Part 15 of the FCC rules.
1.0
VersaProbe™ Environmental Considerations
The VersaProbe is designed to operate from –20 to +50 deg C (0-130 deg F), but note that the
display may be darker than normal at high temperatures and that the display response may be
slower than normal at low temperatures. These changes in display characteristics are normal.
Caution: Reasonable care should be taken not to subject the
VersaProbe to Electrostatic Discharge (ESD). While normal humanbody ESD will not cause physical damage to the VersaProbe, it may
cause the probe to switch operating modes or change configuration
parameters. When no communication or charging cable is attached
to the VersaProbe’s connector, the supplied cap should be
attached to the connector to prevent accidental discharge from
reaching the connector contacts.
2.0
VersaProbe™ Operations
The VersaProbe is designed for the sole purpose of reading commercially-available direct-connect
and inductively coupled utility meter register/encoders. The VersaProbe will display the ID and
reading of the register on it’s built-in LCD display and optionally record and/or transmit the data
to an external device via an RS-232 data cable. During normal use a VersaProbe operator can
perform six primary functions:
1.
2.
3.
4.
5.
6.
Select a register/encoder protocol manually.
Change between AutoSense and manual modes.
Read a meter register/encoder.
Transfer collected data from the VersaProbe to an external device.
Recharge the VersaProbe battery pack.
Enable or disable internal data storage.
Each of the first three functions is initiated solely by the operator pressing the trigger button, as
will be described later. The last three functions require connection of a data cable or recharging
cable to the VersaProbe.
Shielded cables are not required for use with the VersaProbe, but
any cable connected to the VersaTerm must be less than 2 meters
in length to ensure compliance with Part 15 of the FCC rules for
Class B devices.
3.0
Selecting VersaProbe™ Encoder Protocols
The VersaProbe is capable of reading data from different types of encoder using their respective
data transfer protocols. The list of register type protocols include:
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Master Meter (or Badger) Dialog protocol for single encoders connected to a single meter
(not on a network)
Master Meter (or Badger) Dialog protocol for multiple encoders connected to multiple
meters on a network.
Schlumberger ProRead ARB-6 (ProRead) protocol.
ABB Water Meters (Kent) ScanCoder protocol.
Sensus (Invensys) TouchRead protocol.
Schlumberger (Neptune) ARB-1 through ARB-5
Hexagram protocol (includes Hersey Touchless)
Fusion (SystemEquity) protocol
GWF (IEC 1107) protocol
CICASA Scanpro protocol
11-15 Reserved for future expansion
To select a protocol using the VersaProbe, press and hold the trigger button. If AutoSense is not
enabled, the VersaProbe display will initially (for the first second that the trigger button is held
down) look something like the example below. DIALOG indicates the current protocol
selection. The dash (–) indicates that data storage is turned off, and the 100 indicates that 100%
of the VersaProbe's internal memory is empty (available for storage of meter readings).
-100
DIALOG
If AutoSense is enabled the display may initially look something like this instead, where the added
A indicates that AutoSense is active. Also in this example the + indicates that data storage is
turned on and the 091 indicates that 91% of the data storage memory is still empty (available).
+091 A DIALOG
After the trigger button is held pressed for more than one second, asterisks will begin to appear
on the display, from left to right, in the second line of the display. The display screen will look
something like this:
-100 DIALOG
**** _________
If the trigger button is released at any time before the asterisks completely fill the second line of
the display, the VersaProbe will begin reading using the currently-selected communication
protocol. If the trigger button is held pressed until asterisks have filled the entire second line of
the display (about four seconds total), the VersaProbe screen will change to will show a list of its
enabled protocols. The screen will look something like this:
0 - 2 3 4 - - 7 –9A----RELEASE BUTTON
This protocol list screen will remain displayed for as long as the trigger button is held pressed.
The numbers and letters in this display indicate which protocols that this VersaProbe has been
configured to use. The letters A through F are used to indicate protocols 10 through 15
respectively and the digit 0 is used to indicate that AutoSense control is available (i.e. AutoSense
was not locked on or off during configuration). The dashes indicate protocols (and/or AutoSense
control) that have been disabled. In this example AutoSense control is available, and Dialog
Network, ProRead, ABB, Hexagram, GWF and Scanpro protocols are available.
The VersaProbe’s trigger should be released at this time. After the trigger is released the
VersaProbe will begin to display the available protocols for operator selection, one at a time, at
approximately one-second intervals. The display screen will look something like this for any given
protocol display:
P4
ABB
PRESS TO SELECT
Each protocol will remain on the screen for approximately one second. After that time the next
available protocol will be displayed, which in this example will be P7 HEXAGRAM. This
process will repeatedly cycle through the list of available protocols for about 30 seconds, or until
the trigger is pressed to select the protocol being displayed. If no selection is made within 30
seconds, the selection display will stop cycling and the current protocol will remain unchanged.
To make a protocol selection, press and release the VersaProbe trigger when the desired protocol
number is displayed. For example, to select the Dialog Network protocol, wait until the display
shows “P2 DLOG NET”, then quickly press and release the VersaProbe trigger. The VersaProbe
is now ready to read Dialog Network. The VersaProbe will acknowledge the change with a
display similar to the following:
P2
4.0
DLOG NET
SELECTED
AutoSense Mode Selection
Note: This section is not applicable if AutoSense has been locked in the “ON” or “OFF”
state during configuration, or if only one protocol is available.
When AutoSense is off, it can be turned on in the same manner that a meter protocol is selected
(reference Section 2). Press and hold the VersaProbe trigger for approximately four (4) seconds.
At the end of the four-second period, the VersaProbe display will change, showing the protocols
that are available to be read. Release the trigger. Each enabled protocol will now be displayed
one at a time for approximately one (1) second. After the last enabled protocol has been
displayed, and before the first enabled protocol is displayed, this screen will appear:
P0
AUTO ON
PRESS TO SELECT
To turn AutoSense ON, press and release the trigger while this screen is being displayed. The
VersaProbe will acknowledge the change with a display similar to the following:
P4 AUTO DLOG NET
SELECTED
When attempting to read a meter, the AutoSense sequence always starts with the last protocol
successfully read. This helps to minimize read time on routes where there is a concentration of
one specific meter type.
Protocols that are never used on any given route can be disabled during configuration; either
using a VersaTerm hand-held computer in the field, or requesting that NORTHROP GRUMMAN
disable certain protocols while the VersaProbe is at our manufacturing/repair facilities. Fewer
protocols means faster AutoSense time. Protocols can be re-enabled in the same manner if they
are needed at some future date. Call Customer Support at 1-800-453-0661 if you need
assistance.
When AutoSense is on, it can be turned off in the same manner that it is turned on (as described
above). Press and hold the VersaProbe trigger for approximately four (4) seconds. After the last
enabled protocol has been displayed this screen will appear:
P0
AUTO OFF
PRESS TO SELECT
To turn AutoSense OFF, press and release the trigger while this screen is showing. The
VersaProbe will acknowledge the change with a display similar to the following:
P4
5.0
DLOG NET
SELECTED
Reading Meters With the VersaProbe™
5.1
The Reading Procedure
Once the desired protocol is selected in the VersaProbe, simply hold the VersaProbe up to
the meter, press the trigger button, and then release it within less than four seconds.
Notice the display while briefly holding the trigger button pressed:
-100
DIALOG
After the trigger is released, the screen will appear as shown:
READING
DIALOG
This indicates that the VersaProbe is in the process of reading the meter. For networks
and compound registers the display will also show a sequence number or character to
indicate which unit is being read, for example:
READING DLOG NET
NETWORK NODE 1
After a read process completes (which includes reading all registers in compound meter or
network), the ID and READING of the first register are displayed on the VersaProbe
screen for several seconds if the VersaProbe is not in communication with a local route
computer. If the VersaTerm is in communication with a local route computer, then all
acquired register data will be immediately transferred to that computer and the last ID and
READING transferred are displayed on the VersaProbe screen. The VersaProbe can be
removed from the meter at this time. For a register with an ID of 1234567890 and reading
of 654321, the display screen will look something like this:
ID
1234567890
RDG
654321
When the VersaTerm is not connected to a local route computer, the data for additional
registers in a network or compound installation can be displayed by quickly pressing and
releasing the trigger button again before the display time expires. The ID and reading
data will be displayed in the order that they were collected. After all available data has
been displayed, a row of dashes will appear across the screen to signify that no more data
is available.
5.2
Stored Readings
Note: This section is not applicable to users with memory locked in the “OFF”
position.
The VersaProbe has an internal memory, which, if turned ON, allows readings to be
stored internally when no route computer is attached. Depending upon the mix of meter
types being read, the VersaProbe memory will hold between 500 and 1100 register
readings. You can determine the remaining memory capacity by observing the
VersaProbe display when the trigger is initially pressed. The memory remaining is 83% in
the screen sample below:
+083
DIALOG
With no readings stored, the display will show 100%. If the display reads 000, memory is
full and the VersaProbe cannot collect any additional readings.
To unload stored readings into NORTHROP GRUMMAN's VersaTerm hand-held,
connect the VersaProbe to the VersaTerm and readings will be transferred and inserted
into the correct accounts based upon a Meter ID search. Other hand-helds may or may
not support the "stored reading" function. Consult with your hand-held vendor
before attempting to take readings without the hand-held attached to the
VersaProbe.
To turn memory ON or OFF, connect the VersaProbe to the battery charger. The
VersaProbe model, serial number, firmware version, and memory status are displayed
during the first three seconds of charging. For example:
VP1X-10126
V10.07
MEM
ON
To change the memory status from OFF to ON or vice versa, simply press and release the
trigger while this screen is displayed. After memory has been turned off the display will
look like this:
VP1X-10126
V10.07
MEM
OFF
If memory is accidentally turned ON when not needed and the VersaProbe stops collecting
readings because memory is full, follow the above procedure for turning memory OFF.
Once memory is OFF, press and release the trigger. The VersaProbe will attempt (and
fail) a read process, then display an error message indicating no meter was detected.
When the error message disappears and the screen goes blank, memory will be emptied
and reading capability will be restored.
6.0
Recharging the VersaProbe™ Battery Pack
It is good practice to keep the batteries charged and in good condition. Immediately after
connecting the VersaProbe to a wall charger, the display will show the VersaProbe’s serial and
memory status. The display screen will look something like this:
VP1X-10126
V10.07
MEM
ON
After three seconds, the VersaProbe will display the accumulated charging time in hours, minutes
and seconds. The display screen will look something like this:
AC CHARGE
01 23 45.0
In this example, the VersaProbe has been charging for 1 hour, 23 minutes and 45 seconds.
Generally, VersaProbe batteries should be charged every evening after a full day's usage. If the
probe has only been used for a short time, it is probably not necessary to charge the battery that
evening. Leaving the battery on charge for long periods of time will significantly reduce battery
life. NORTHROP GRUMMAN recommends limiting charging periods to over-night (15 hours)
whenever possible, but over a weekend is acceptable once per week.
7.0
Sensus SmartGun™ Emulation Mode
The VersaProbe serial output data format can be configured to emulate a Sensus SmartGun’s data
format. In this mode the VersaProbe’s output data is always in the variable record length format
regardless of the actual data format of the register that was read. Data from a MultiRead register
multiplexer is presented as multiple independent variable-format data records. The default
emulation mode operates at 300 baud but an optional 9600 baud mode is also offered. When a
VersaProbe is configured for emulation mode, the firmware version number display is altered
accordingly. In the 300 baud emulation mode, –3 is appended to the version number, while in
the 9600 baud emulation mode –96 is appended to the version number. An example is shown
below. SmartGun™ is a trademark of Invensys plc.
VP1X-10126
V10.07-3
10
MEM
ON

---

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Create Date                     : Thursday, July 25, 2002 3:17:49 PM
Title                           : VPmanual.PDF
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