heath volume corrector hvc series
TRANSCRIPT
Heath Volume Corrector
HVC Series User’s Manual & Field Installation Guide
Heath Consultants Inc.
Houston, TX
713-844-1300
Fax: 713-844-1309
1-800-HEATH-US
www.heathus.com
2
HVC Series
HVC User’s Manual & Field Installation Guide
Proprietary Notice The contents of this manual are proprietary to Heath Consultants Incorporated. Reproduction of
this manual, in whole or in part, is prohibited without the express written consent of Heath
Consultants Incorporated.
Heath Consultants Incorporated operates under a continual product improvement program and
reserves the right to make improvements and/or changes without prior notification.
Purpose of this Manual
The HVC series is a powerful device that can be assembled and programmed in a variety of
configurations. The purpose of this manual is to provide information for use in instrument shop setup and
field installations.
Models
HVC IS HPN 77R91-1000
HVC HPN 77R91-1000-1
HPN 77R91-1071, rev B
©COPYRIGHT 2011-2015, Heath Consultants Incorporated
3
Table of Contents
HVC Series (Purpose of this manual) ............................................................................................. 2
Table of Contents ............................................................................................................................ 3
Heath Volume Corrector (HVC) Overview .................................................................................... 4
HVC Features ..............................................................................................................................4
HVC Hardware Layout ........................................................................................................... 5-6
HVC PCBoard Layout .....................................................................................................................7
Mounting & Installation ...................................................................................................................8
Equipment Required ....................................................................................................................8
Matching the HVC to the Meter Rotation ...................................................................................8
Meter Mounting ...........................................................................................................................8
Pressure Connection ....................................................................................................................8
Temperature Probe Installation ...................................................................................................9
Electrical Installation ...................................................................................................................9
Battery Pack & Back-up Batteries ......................................................................................... 9-10
External Power ..........................................................................................................................10
Pulse Outputs .............................................................................................................................10
Alarms .......................................................................................................................................10
External Modem ........................................................................................................................11
Internal Modem .........................................................................................................................12
HVC Host Operating Software ......................................................................................................13
Software Installation............................................................................................................ 13-17
Quick Start Guide ......................................................................................................................18
HVC Host Setup Detailed ........................................................................................................ 19-20
HVC Configuration Detailed ................................................................................................... 21-23
Modbus Implementation ................................................................................................................23
Downloading and Printing Data.....................................................................................................24
Configuring for use with an IP Modem ................................................................................... 25-30
Annual Checks/Procedures ........................................................................................................... 31
Pressure Calibration ..................................................................................................................31
Temperature Probe Calibration .................................................................................................31
Mechanical Index Change Procedure ........................................................................................31
Instrument Backup & Restore Configuration/Calibration.........................................................31
Main Battery Change Procedure ...............................................................................................31
Back-up Battery Replacement Procedure ............................................................................ 32-33
Back-up Coin Battery Replacement Procedure ........................................................................ 34
Replacing or Upgrading a Transducer ...................................................................................... 35
HVC Firmware Update Procedure ...................................................................................... 35-39
HVC Specifications ...................................................................................................................... 40
Troubleshooting ....................................................................................................................... 41-42
Spare Parts and Accessories.......................................................................................................... 43
Service Information ...................................................................................................................... 44
Configuration Worksheet ......................................................................................................... 45-46
Technical Support ......................................................................................................................... 47
4
Heath Volume Corrector (HVC) Overview The HVC is a microprocessor based, self-contained system designed for the purpose of performing ideal gas
law calculations using integral pressure, temperature and volume sensing devices.
HVC Features
• Intrinsically safe: Class I Div I Group D (without internal modem).
• Single Alkaline “D” battery provides power for up to 4 years.
• Single Lithium “AA” Backup battery will provide 100% operation for up to 1 year after main
battery is depleted.
• Measures & records pressure, temperature sensors and updates Corrected and Uncorrected
volumes every meter revolution or every min (programmable).
• Continuously displayed LCD defaults to Corrected Volume. Scroll button allows Uncorrected
Volume, Pressure, Gas Temperature, Correction Factor, Main battery and Lithium Battery Voltage,
as well as any active Alarm to be displayed.
• Non-volatile Flash memory saves Calibration, Transducer Coefficients, Instrument Configuration
& Site info if all power is lost.
• Profiler data recording- Circular log: 130 days/hourly: Time/ Corrected/ Uncorrected/ Ave
Pressure/ Ave Gas Temperature.
• Event Log (Records alarms & configuration changes).
• System Alarms (H/L Press, H/L Temp, main and lithium backup battery).
• Contract Usage Alarms (High Day/ Warning Month/ High Month).
• Contract Management (Nomination/ Allocation).
• All alarms can be reset via scroll button (No laptop needed).
• Call out upon alarm.
• Remote Communications Ready (External Direct port & Internal Remote RS232’s).
• Multi-Drop to several instruments from one modem (Up to 62).
• Previous Month Total Volumes (Uncor & Corr) can be displayed on LCD.
• Max Day Volume “total” & Date stamp of Max Day can be displayed on LCD (Max Day can be
reset by holding scroll button).
• Protocols included: Sandia (Native)/ Modbus RTU or ASCII.
• Two Pulse Outputs (Uncorrected & Corrected/ Form “A”).
• Units of measure (PSIA, KPA, BAR Deg. F/ Deg. C).
• Reliable Falling magnet/ Reed switch input.
• Index uses all brass miter gears that are easily reversible for CW & CCW meter direction.
• HVC Firmware can be upgraded via PC.
• IP64, Aluminum, Powder coated paint over chromate surface prep, lockable stainless steel hasp
closure (Saltwater spray tested).
• HVC Host software will operate the HVC, RVC, XVC and LVC devices.
• HVC Host software is very user friendly.
• HVC Host is compatible with Windows 7, Windows 8, Win Vista and Win XP.
5
HVC Hardware Layout
Figure 1
Figure 1: LCD Display List: Corrected Volume (default after 4 minutes)/ Uncorrected Volume/ Correction
Factor/ Gas Pressure/ Gas Temp/ Main Battery Voltage/ Backup Lithium Voltage/ Active Alarms. Active
Alarms will be indicated with decimal points along the bottom of the LCD and the full Display List and
actual Alarms can be viewed by scrolling.
Figure 2
Figure 2: Layout of back of HVC. Pressure connection, Temp probe, Direct comm. port, Locking Hasp &
universal mounting plate.
Display
Uncorrected
mechanical index
Scroll Button
External Modem
Wiring Port
RS232
PC Com
port
Optional Temperature
Probe Port
Optional
Transducer #2
(not yet available)
(
Universal
mounting plate
Locking
Hasp
Earth
Ground
Stud Drill spot faces
front of the meter
Pressure port
6
Figure 3
Figure 3: Inside configuration. Refer to drawing MTM-308-1 for field wiring requirements for external
power and modem connections to maintain intrinsic safety.
Primary
battery
Earth
Ground
Stud
Back up battery
(under cover)
Reversible gears for
adapting to CW or CCW
rotating meters
Main
battery
connector
Backup
battery
connector
7
HVC PCBOARD LAYOUT
CT
SR
TS
CD
TX
MR
XM
GN
D
GN
DP
UL
SE
IN
PU
T
GN
DT
XD
RX
D
PU
LS
E O
UT
BG
ND
PU
LS
E O
UT
AG
ND
P3
+E
P3
+S
P3 -
EP
3 -
SG
ND
P2 +
EP
2 +
SP
2 -
EP
2 -
SG
ND
P1 +
EP
1 +
SP
1 -
EP
1 -
SG
ND
GN
DG
AS
TE
MP
GNDINDEX B
STOBEINDEX A
STOBE3V SYS
GNDGAS TEMP 2
1.5VDCGND
12VDCGND
BUTTON
COM 2 COM 1 PRESS 3 PRESS 2 PRESS 1
JP5*
CR2032
3V
1 2 3
ASSY#: 77R65-9320
REV F
3.6V "AA" Lithium
OPEN
JP1*
OPTICALINDEX INPUT
MAINBATTCONN
12VDCEXTCONN
DISPLAY
BACKUP BATTERY
BACKUPBATTERYMEMORY
GAS TEMPPROBE #2
PR
OB
E #
1
DATA
MODEM DIRECT
WIRED TO
J13 J14 J11 J10 J7 J6 J5 J9
J8
J12
J1
J11
J2
(HDR Only) (HDR Only)
(HDR Only)
A= UncorrectedB= Corrected
NOTE: External connections to the pcboard should be made by using the adapter cable serial
number 77R91-1072. This cable provides a terminal strip for Pulse input & (2) outputs (J10),
Modem connections (J13) and External 12V power (J11).
* JP1: This jumper switches the lithium power from the pcboard circuit.
* JP5: When using the internal 2400 baud modem, a special harness is required for “Call out upon
alarm” feature. This harness connects Pin 2 of JP5 to Pin 6 of J13 (External modems that
stay online 100% doesn’t require this option).
8
Mounting & Installation
Equipment Required
• Lap Top Computer (Using Win XP, Win Vista, Win 7 or Win 8) running HVC Host.
• Communications Cable (HPN 77R61-0070)
• Test Gauge, Dead Weight Tester or Accurate Pressure gauge
• Temperature Reference (If equipped with gas temperature probe)
• HVC Mounting Kit (gasket, wrench)
• Mechanics Tool Kit
Matching the HVC to the Meter Rotation
The HVC is equipped with a “Falling magnet/ reed switch” Mechanical Index Assembly. The HVC
is suitable for direct mounting on most diaphragm, rotary or mechanical turbine meters including, among
others, Rockwell, Equimeter, Roots, Dresser, Romet or American with instrument drives.
When directly mounted to a meter, the user should ensure that the mechanical index rotation of the HVC
matches the rotation of the meter. Unless otherwise specified, the HVC will be shipped suitable for
clockwise (CW) rotating meters. The proper rotation can be confirmed by spinning the drive dog on the
bottom of the instrument in the direction required by the meter. If the mechanical counter odometer
turns in the wrong direction, change rotation by engaging the optional brass gear on the horizontal shaft
on the mechanical index.
When configuring the HVC using HVC Host, the “UnCor Vol Input” will be configured by default to
“Digital Input”. This will grey out the: “Clockwise” selection and will set the “Meter Speed” to “Fast”
regardless of actual meter rotation as the falling magnet/ reed switch mechanical index is in use. If the
optional Optical Index is used, the “UnCor Vol Input” will be configured to “Opto Input” which will
enable the direction and speed selections.
Meter Mounting
The standard HVC will fit most any mechanical meter instrument drive. Use gasket (provided) between
the HVC and meter base. Mount on to top of the meter while insuring that the HVC drive pin engages
properly with the meter drive. Verify meter rotation. Secure the HVC with bolts (not supplied with
mounting kit) to the meter base.
A “Large Mounting kit” (77R61-9580) can be supplied as an option. This kit consists of mounting
hardware, test plug, isolation valve, miscellaneous fittings and 1/8” tubing to allow connection of pressure
to the HVC.
NOTE: A rotatable base plate allows for user desired orientation of the instrument. The base plate is
removed using a 5/32 hex wrench to remove four bolts. The INSTRUMENT may then be re-installed
with a different orientation. The base plate MUST maintain its original position and be positioned toward
the front of the meter indicated by a drill spot on the top of the base plate. CAUTION: TO PREVENT
DAMAGE TO THE METER DO NOT CHANGE ORIENTATION OF THE BASE PLATE ON THE
METER. ONLY CHANGE ORIENTATION OF THE INSTRUMENT.
Pressure Connection
Connect the pressure (or gas) supply to the 1/4” NPT female connector located on the back of the HVC
housing. After piping is complete, check all connections to ensure that no leaks are present. Note: For
ease and isolation of testing, the HVC large mounting kit is recommended. This kit will assist in future
calibrations and inspection while the unit is in service.
9
Temperature Probe Installation
If equipped, the standard 6’ long temperature probe (6” x 1/4” OD) should be installed into the
appropriately sized thermowell filled with a thermo conductive medium such as glycol or alcohol. Insert
the temperature probe into the thermowell through the standard 1/4” inch NPT male fitting (provided)
until the tip of the probe reaches the bottom of the well. Secure excess armor cable length of the probe.
It may be necessary to isolate the pressure and temperature connections to the pipeline, so as not to disturb
the cathodic protection system.
Electrical installation
NOTE: Refer to drawing MTM-308-1 for field wiring requirements for external power and modem
connections to maintain intrinsic safety.
The HVC unit must be earth grounded to maintain safe operation and warranty.
The ground stud of the HVC (located on the bottom left of the instrument) must be connected to a suitable
known external earth ground (usually a dedicated ground rod and NOT AC ground). All of the major
components in the HVC are bonded together and connected internally to this ground stud. It is required
that grounding be performed, especially when an external modem and/or external power supply (which
requires a dedicated ground rod in close proximity to the safe area) is used. All cabling connecting to the
HVC must be shielded with all shields tied to case ground.
For multiple device interconnections (modems, power supplies etc.) the ground stud of the HVC must be
tied directly to this same (safe area) ground rod rather than having a separate ground rod of its own. It
may be necessary to isolate the portion of the pipe that the HVC is mounted to (with insulating flanges)
so as not to disturb the cathodic protection system.
The American Gas Association recommends grounding all electronic field devices to a driven ground rod.
This will help protect the device from transients including lightning and power surges on the pipeline.
To reduce the possibility of “secondary” lightning strike damage (damage caused by static electricity
fields in the immediate area), the above precautions are required. However, these precautions cannot
prevent damage to an instrument that receives a “direct” lightning strike.
Battery Pack and Back-up Batteries
The HVC units utilize (1) 1.5-volt, encapsulated “D” cell alkaline battery as its primary power source. The
pack supplied with the HVC consists of an alkaline dry cell and a protection circuit.
Part Number: I.S. Battery pack (Black): 77R91-1037
Part Number: Non-I.S. Battery pack (Blue or Yellow): 77R91-1091
NOTE: This battery is not rechargeable.
HVC units are shipped from the factory powered and ready to install in the field (unless otherwise
specified).
The HVC incorporates an on board uninterruptible power supply. This consists of one factory installed
“AA” lithium cell (BT1) rated at 3.6 volts. This cell is easily replaced in the field.
Part Number: 77R65-8001
The HVC incorporates an on board battery (CR2032) for backup of the profiler log. This consists of a
replaceable button style lithium battery (BT2) located on the component side of the PCB.
Part Number: 77R65-8002
10
Normal Main battery voltage should be displayed between the ranges of 1.5 to 1.7 volts for a new battery,
and when the primary power drops below .8 volts, the unit will switch to lithium backup. Under normal
conditions, the main battery pack should last up to four years and the lithium backup battery should last
up to 1 year without power from the main battery. Lithium standby life is 7-10 years.
Note: If all three batteries lose power, the data that is stored in non- volatile memory will not be lost. This
includes Calibration, Poly (transducer) and configuration data.
Caution: When the communication cable is connected to the instrument, higher than normal battery current
is consumed. Because of this, it’s recommended to limit the time connected to the instrument.
Caution: The maximum voltage allowed on the “Main battery” input is 2 volts DC. Only use the 1.5
volt battery pack supplied by Heath. If this voltage is exceeded, a protection fuse may blow and the
warranty will be void.
Caution: To maintain the Intrinsic Safe rating, use only proper replacement batteries: main battery pack
HPN 77R91-1037, Lithium backup battery, HPN 77R65-8001, and coin battery, HPN 77R65-8002.
Contact Heath Consultants for replacement batteries and main battery packs. Refer to Annual Checks on
page 37 for replacement procedure.
External Power
The HVC can be connected to an external power source (6- 15VDC). External Power is recommended
when using modems which are externally powered.
Contact Heath Consultants for this harness.
Pulse Outputs
Form “A” type. The HVC is equipped to provide pulse outputs representative of uncorrected and corrected volume. There
are two pulse channels available and are designated “A” and “B”. The pulse outputs are two-wire open
drain. Pulser A is designated for uncorrected pulse out. Pulser B is designated for corrected pulse out.
Contact Heath Consultants for this harness.
Specifications for Pulse Outputs Pulse output electrical specification is as follows: Open drain, requires external 1 to 30 volts maximum,
25 mA maximum, and 1 K minimum load resistance. Each pulse has a standard fixed pulse width of 62.5
milliseconds with a duty cycle of 50% (62.5 ms on and 62.5 ms off). An optional 1000 milliseconds (1
sec) pulse width is also available.
Because of the wide variety of applications requiring connection to the pulse output channels,
consideration should be given to the site electrical classification as to the use of intrinsic safety barriers.
Alarms
To configure the alarms, go to Configure column/” Alarms and Nominations”:
Set the Mode to “Manual” to activate an alarm that must be reset by the HVC Host software or the scroll
button. Set to “Manual Call” to activate “Call out upon Alarm” (must have a modem connected).
Set the “Trip” value that the alarm will activate on.
Contract Management values are in Cubic Feet.
Current Readings are displayed for reference when setting the alarm values.
All alarms can be reset manually by holding the scroll button closed for more than 4 seconds. They can
also be configured and reset by using the HVC Host. An active alarm will be indicated by a lower row of
dots on the LCD display. The HVC LCD will display the active alarm by scrolling to the alarm screen.
11
External Modem
The HVC is equipped with two RS232 communication ports. The Direct Port is dedicated to local direct
PC communication at 19200 baud using the HVC com cable. The Remote Port is used for connecting a
modem. Remote baud rates available are 300, 1200, 2400 (default), 4800, 9600 and 19200. When
configuring for a remote modem, the “Remote Modem Baud Rate” in the unit must match the baud rate of
the field modem being used. Connect the RX, TX & GND from the modem to the instrument on J13. A wiring
harness is required for this connection.
Note: If the external modem powers down to save power, the CTS wire is required to wake the modem prior to
“dialing out upon alarm”- if this feature is enabled. Otherwise the CTS wire isn’t required for inbound
communication.
Caution: When connecting the HVC to an external modem, it is recommended to connect external power
to the instrument due to higher current demand from the RS232.
CT
SR
TS
CD
TX
MR
XM
GN
D
GNDINDEX B
STOBEINDEX A
STOBE3V SYS
GNDGAS TEMP 2
1.5VDCGND
12VDCGND
BUTTON
JP5
CR2032
3V
1 2 3
ASSY#: 77R65-9320
REV F
3.6V "AA" Lithium
OPEN
JP1
DISPLAY
BACKUP BATTERY
WIRED TO
Modem Wakeup Jumper Wire
CTS
GND
RX
TX
(Only required for modems that power down)
(Only required for modems that power down)
J13
Non-Heath Modem
DS
R (
Pin
6)
GN
D (
Pin
5)
RX
(P
in 2
)
TX
(P
in 3
)
RS-232
Splice
Splice
Splice
Splice
9 Pin
12VGND
12VDC Modem Battery
12
VG
ND
External power is recommended when
connected to external modems.
12
Internal Modem
The HVC may be equipped with an internal modem and phone line surge suppressor. The internal modem is a 2400-baud
modem. The modem is pre-configured and pre-wired from the factory, ready for remote communication. If the HVC is
equipped with the phone line suppressor, it will be connected directly into the modem’s RJ-11 connector. A 12-volt battery
pack (8 “AA” batteries) is supplied, but not connected when shipped. The user must connect prior to remote
communication. Assuming one two- minute call per day, every day, the battery should provide approximately 2 years of
service. The optional phone line surge suppressor will sacrifice itself to protect the equipment in the event of a destructive power
surge on the phone line.
To connect a phone line to the modem, insert the phone cable through the black wire gland on back of the case (see Figure
1). The cable must be terminated with a RJ-11 connector. Plug into surge protector if provided; otherwise, plug directly to
the modem.
CAUTION: The HVC must be connected to earth ground to allow the surge suppressor to operate properly.
CAUTION: Internal modem option is not currently certified for use in hazardous environments. An external modem
should be used when necessary. Refer to drawing MTM-308-1 for field wiring requirements on external power and modem
connections to maintain intrinsic safety.
CT
SR
TS
CD
TX
MR
XM
GN
D
GNDINDEX B
STOBEINDEX A
STOBE3V SYS
GNDGAS TEMP 2
1.5VDCGND
12VDCGND
BUTTON
JP5
CR2032
3V
1 2 3
ASSY#: 77R65-9320
REV F
3.6V "AA" Lithium
OPEN
JP1*
DISPLAY
BACKUP BATTERY
WIRED TO
*Jumper wire
Yellow (CTS)
Red (GND)
Gray (RXM)
Blue (TXM)
Heath 2400Baud Modem
Ph
on
e L
ine
(Wake-up wire for "Call Out Upon Alarm")
12V
Modem
Batte
ry
(Wake-up wire for "Call Out Upon Alarm")
J13
13
HVC HOST Operating Software
HVC Host is the companion software interface to the HVC instrument. The application program provides
for configuration, calibration, local and remote communication, interrogation, data collection and data
processing.
The Auto Download feature allows automatically polling any or all the instruments (on remote
communications- modems or TC/IP) from a “Master Directory” list. This “Auto Download” feature is
included in the HVC Host and is supplied on CD ROM media. The self expanding executable “setup” file
will guide the user through the installation process.
This install will work in Windows operating systems for Win Vista, Win XP, Win 7&8. NOTE: This install must be on each workstation in a network. The data can be sent to a network drive
and be shared by other workstations that have HVC Host installed. Remember to change the “Data Paths”
of each workstation to use the same network drive and directory. DO NOT INSTALL THIS SOFTWARE
DIRECTLY ONTO THE NETWORK SERVER DRIVE.
Software Installation
To install, locate the file “HVC Host Setup 4.03.exe”. Double-click the file to install. Follow the
instructions to complete the installation process. After the software is installed, you may need to configure
the com port to directly connect to the instrument. Com 1 is very common for direct communications;
however, many newer computers are not equipped with a 9-pin connector for direct connect with the
standard com cable. A “USB to Serial adapter” may be required. Follow the instructions included with the
USB to serial adapter. After the adapter is installed and connected to the PC, go to “Start”/ Control Panel/
System/ Hardware/ Device Manager/ “Ports” (click the “+” to the left of “ports”) Look for “USB to Serial
Bridge (com xx)” Enter this port number in the HVC Host (Host Setup/ Configure Host)/ “Direct”. Any
port from 1-255 can be chosen. Note: Only the available ports will be listed in HVC Host/ Host setup
“Name” dropdown. NOTE: HVC Host requires a screen setting of at least 800 X 600.
Click “Next” to continue.
14
Accept the agreement. Then click “Next” to continue.
Click “Next” to continue or change the default location of the HVC Host data files.
15
Click “Next” to continue or change the default location of the data log files.
Click “Next” to continue or change the default location of the HVC Host shortcut.
16
Select additional icons. Click “Next” to continue.
Click “Next” to continue installation.
17
Click “Finish” to complete the installation. Select the box to view the “README.TXT” file.
18
Quick Start Guide Note: Click “F1” key for help on any item
1. Install the HVC Host software from the CD software disk provided.
2. Setup “Host Setup” (Com 1, 19200, Direct, is most common). If your com port is different than com 1 (or you
are using a USB to serial adapter, find out the port number and select it in HVC Host/ Host Setup). (More info
on com port setup on page 13, 19-20). Make sure to use the same USB port every time to keep the same port
number.
3. Make any other changes to the Host Setup. Click OK.
4. Connect the communication cable from the PC to the back of the instrument.
5. Using the HVC Host software, select “Security” column/ “Logon Instrument”. The status bar will show
“Logged on” in green. Note: “Instrument Response Failed” will be displayed if the com port isn’t configured
correctly.
6. To configure the HVC for field use, select “Configure” column/ “Configure 1”. Select appropriate
configurations. (If no changes are made, the default values will be used). Click “OK”. (More configuration
details on pages 19-21).
7. To configure the site information: Go to “Configure” column/ “Configure 2” select "Configure/ Site Info".
Enter the site address/ Modem baud rate (If modem is equipped) & setup pulse outputs (If pulse outputs are
needed).
8. To set up the alarms: Select “Configure” column/ “Alarms and Nominations”. Select the alarm reset “Mode”
(Ignore, Manual or Manual Call) and the “trip point” of the alarm. Click “OK”
9. To reset the HVC Clock to match your computer: Select “Configure” column/ Go to “Set Real Time clock”.
Press the [Enter] key (Make sure the time & date is correct in the PC).
10. The default password configuration uses “logon” for full access and “readonly” for Read Only access. Since
the Host setup has “logon” as the default, no passwords will be prompted and full access will be granted. To
set up a “special” password for access to the HVC: Go to “Configure” column/ select “Set Access control”,
change the default password for “Full Access” or “Read-only”. The “Host Setup” has a “Default Password”.
If it matches the “Full Access” password, Full access is given- without needing to enter a password. This
“Passive Security” is best if all instruments have the same passwords and the technicians have the same
“Special” password in their computers “Host Setup”.
11. Reset the “Profiler”. “Configure” column/ “Reset Profiler”/ at Warning screen select “Yes”. This resets the
recording of hourly Volumes, pressure and Gas Temp.
12. It is recommended to “Backup” the Configuration, Calibration, Transducer Coefficients & Site info. This
same info can be sent to the same instrument (for example if the main pcboard was replaced) or the
“Configuration” can be sent to another HVC to allow consistent configuration for each instrument. To do this:
Go to “Configure” column/ select “Auto Configure”/ Backup Instrument.
13. To retrieve data or directly print a report: Select "Data", and then select the desired download or report to
view or print (Download: Profiler, Alarm log, IOR Snapshot, Configuration Log, Modem Error Log) (Print:
Profiler, Print Alarm log, Print IOR Snapshot, Print Configuration Log, Print Modem Error Log or View
Saved Fast Logs).
19
HVC Host setup- Detailed
1. “Type” of connection: Direct (communication cable), “Modem” (remote comm.) & “Network” (IP modems
that use an IP address and is connected through internet connection).
2. “Name” of Comm port connection. Click the triangle to show the list available on the computer. (To find
your port number, in Windows, go to the “Device Manager” under “Ports”).
3. “Baud” rate setting is for certain modems that require a specific baud rate. The “Direct” connection is
19200.
4. “Parity” is used for special circumstances where there is a need to change to “Even” or “Odd”.
5. “Pre” RTS delay is for certain half-duplex radio modems that require delay before sending data.
6. “Post” RTS delay is for certain half-duplex radio modems that require delay after sending data.
7. Modem Initialization string is for “Host” modems requiring certain HAYS initialization commands. The
default (ATE0V0X4&K0) works with most modems.
8. “Hangup” string is used for “Host” modems requiring special commands to enable hanging up the modem.
1 2
3
4
7
8
5
6
Select
from
these
options
9
11
10
12
23
14
15
13
19
17
18
16
20
21
22
0
24
25
20
9. “Default Sandia ID” is the ID for connecting to the HVC. Used for “Multi-drop” modems to uniquely
address several instruments sharing one modem. “63” is used to communicate with any HVC that it’s
connected to.
10. “Default Logon Password” is used when connecting to HVC’s. “Logon” is the default password. This
password will match with the password configured in the instrument in the “Config” column/ “Set Access
Control”. To set a custom password, change the password in the Host Setup & change all instruments
passwords to match.
11. Type a name to appear on top of the reports generated from HVC Host.
12. This value will be used in the Hourly and Monthly reports for “Beginning Time” and “Ending Time”.
13. This value will be used in the Monthly reports for “Beginning Day” and “Ending Day”.
14. Selects if “Daylight Savings Time” is displayed in the reports and throughout the display screens. The
actual time in the instrument is always in “Standard Time”, however, the HVC Host will adjust time to
display in DLS. If set to “Disable”, all time references will be displayed in “Standard” time.
15. This is the type of file and where the Profiler, IOR Database & Event Log filenames will be created from.
The “Short flat file” is the typical Profiler file format; “ODBC” is a format where all downloads are placed
in one file that’s compatible with Microsoft Access. The filename options are: Serial Number, Meter
Number and Site Address (line #1/ this is the default). These are found in Configure column/ Config 2. The
“Download .PRF & .PRO” is only used in rare cases where it’s needed to generate a file format compatible
with GMHost.
16. This is the path where all Profiler files will be saved. Data>Download Profiler.
17. This is the path where all Configuration files will be saved (The Config file contains: instrument calibration,
configuration, transducer polynomials & site info). Config>Auto Configure> Backup Instrument.
18. This is the path where all Transducer files will be “Imported” from. Note: The transducer/Poly files can’t be
saved to this location, the “Configuration” file saves the “Poly” data (Config>Auto Configure> Backup
Instrument).
19. This is the path where all IORS files will be saved. Data>Download IOR Data.
20. This is the path where Phone numbers & IP addresses will be saved in a file named “LVHMAST.DIR”.
21. This is the path where all AMR files will be saved.
22. “Restore Defaults” button. Use to change the settings in the Host Setup screen to the default settings.
23. “Restore User” button. Use to restore to the previous settings in the Host Setup screen.
24. “Session Only” button. Use to save the settings in the Host Setup temporarily until the HVC Host is closed.
25. “OK” button will save all settings in the Host Setup screen. These settings will be saved even after
restarting the software.
21
HVC Configuration- Detailed
Configure 1 Screen
1. Meter Drive (Input Scale Factor)= (X1, X5, X10, X100, X1,000, X10,000) Should correspond to the
amount of uncorrected gas per revolution of the meter.
2. Uncorrected Volume Display Scale Factor= (X1, X5, X10, X100, X1,000, X10,000) Sets the scale for
all Uncorrected volume displays throughout the system (LCD, Display1, Profiler etc.)
3. Corrected Volume Display Scale Factor= (X1, X5, X10, X100, X1,000, X10,000) Sets the scale for all
Corrected volume displays throughout the system (LCD, Display1, Profiler etc.)
4. Uncorrected Volume= (Manual entry) Sets the reading of the Uncorrected accumulator (Usually this
reading matches the mechanical index reading to ensure proper counting).
5. Corrected Volume= (Manual entry) Sets the reading of the Corrected accumulator (Changing this
reading will not affect the hourly recording in the “Hourly Profiler”.
6. Uncorrected Volume/ Display 4-7 digits = Sets the amount of digits to be displayed on the LCD.
Otherwise referred to as “Electronic masking” of the LCD.
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3
4
5
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15
16
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20
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10
11
6
7
8
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7. Corrected Volume/ Display 4-8 digits = Sets the amount of digits to be displayed on the LCD.
Otherwise referred to as “Electronic masking” of the LCD.
8. Uncorrected Volume/ Leading blanks or Leading zeros = Sets either “Leading Blanks” or “Leading
Zeros” on the LCD.
9. Corrected Volume/ Leading blanks or Leading zeros = Sets either “Leading Blanks” or “Leading
Zeros” on the LCD.
10. Meter Factor = (Manual entry) Applies a correction factor to the input pulse count. This can correct for
a “Known and predictable” meter error. Allowable range is .95 to 1.05 (+ or – 5%).
11. Turbine K Factor = (Manual entry) Allows entering a K factor from an electronic turbine meter
(Currently this option pcboard is not available at this time).
12. Turbine Divisor = Used as a divider for the “Turbine K factor” (not currently used).
13. Base Pressure = (Manual entry) Sets the Base Pressure used in the Correction Factor calculation. Note:
Do not type “PSIG” next to the entry.
14. Zone Pressure = (Manual entry) Same as “Atmospheric Pressure” used in the Correction Factor
calculation. Note: Do not type “PSIG” next to the entry.
15. Base Temp = (Manual entry) Sets the Base Temp used in the Correction Factor calculation. Note: Do
not type “DegF” next to the entry.
16. Specific Gravity = Sets the “Specific Gravity” value of the gas for NX-19. Note: Do not type “mol %”
next to the entry.
17. Percent Carbon Dioxide = (Manual entry) Sets the “% Carbon Dioxide” value of the gas for NX-19.
Note: Do not type “mol %” next to the entry.
18. Percent Nitrogen = (Manual entry) Sets the “% Nitrogen” value of the gas for NX-19. Note: Do not
type “mol %” next to the entry.
19. Wakeup Method = (Once Per Rev or Once Per Min) Sets the interval when all sensors are read and
LCD is updated. “Once per rev” is most common, however, if a meter is turning faster than 1 rpm it’s
recommended to change to “Once per Minute” to minimize battery usage.
20. Meter Rotation= (Counter Clockwise, Clockwise or Heavy Duty Index). This option can only be used
with optical indexes. Set to “Clockwise” or HD Index ONLY- when using “optical” input (regardless of
meter rotation). Note 1: “Heavy Duty Index” is the same as “Clockwise”. Note 2: This value is not in use
for “Falling magnet/ reed switch indexes which are standard in the HVC (It is grayed out).
21. Meter Speed = Slow (15 RPM Maximum) or Fast (120 RPM Maximum). This value is not in use for
“Falling magnet/ reed switch indexes which is standard in the HVC (It’s grayed out). This option can only
be used with optical indexes (It’s grayed out when set to “Digital"). Note: Set to “Fast” will reduce the main
battery life to 3 years. Set to “Slow” or selecting “Digital” will allow up to 4 years of main battery life.
22. Pressure Mode = (Auto or fixed). Use “Auto” when using live pressure input. Use “Fixed” when using
fixed factor measurement or there is a need to lock in a pressure reading used for pressure calculation.
23. Temp Mode = (Auto or fixed). Use “Auto” when using a live Gas Temp probe input. Use “Fixed”
when using fixed factor measurement or there is no temperature probe connected. This fixed value will be
used for the Temperature part of the calculation.
23
24. FPV Mode = (Auto or fixed). Use “Auto” to calculate FPV based on the configurations of the
instrument. Use “Fixed” when using fixed factor measurement or there is a need to lock in a specific FPV
for calculation.
25. Instrument Units = (US or Metric) When configured to US units the unit will display in Cubic Feet for
Volume/ PSI for Pressure/ Degrees F for temperature. When configured to Metric units the unit will display
in Cubic Meters for Volume/ KPA or BAR for Pressure/ Degrees C for temperature. Caution: When setting
to Metric, the values for Base Pressure, Zone Pressure, Base Temp and Transducer “Full Scale” value
MUST be manually converted to reflect the desired metric unit.
26. Metric Pressure Units = (Bar or KPA) Select which metric unit the instrument will use for pressure.
27 Display Previous Month in LCD Sequence= (Check box) This setting will add the “Total accumulated
Uncorrected volume” and “Total accumulated Corrected volume” from the entire previous month and
display it on the LCD. The LCD reading will display [“Pc” (volume)] for Previous Corrected and [“Pu”
(volume)] for Previous Uncorrected volume from the previous month. This reading will stay the same for
the month until the 1st of the next month is passed, then it will be updated with the totals from the previous
month.
28. Display Max Day in LCD Sequence= (Check box) This setting will add the “Max Corrected volume”
accumulated in 24 hours and display the volume reading and the date that the max volume occurred. The
LCD will display [“Hd” (volume)] push the scroll button again and the next screen will be the date that the
“High day” or “Max day volume” occurred. To reset this, hold the scroll button on the “Max Day reading”
for four seconds and the reading will go to zero and the date will read [- - - - - - - -] until the next Max day
occurs.
29. Previous Monthly Accumulators= (Check box) This setting will reset the Previous Monthly
Uncorrected and Corrected Accumulators back to zero.
30. UnCor Vol Input = (Digital or Opto Input) Set to “Digital” for the HVC standard “Falling magnet/ reed
switch index. Set to “Opto Input” if using the older style “optical” index used in the older LVC/XVC
instruments. Note: The HVC can use either input (when equipped).
Modbus implementation
1. Two types of Modbus can be used, ACSII and RTU.
Packet framing: ASCII Data bits=7/ RTU Data Bits=8 / Parity= Even/Odd/None / Stop bit=1.
Note 1: After setting Modbus to ASCII, the remote port will not work using the native Sandia
protocol.
Note 2: The direct port will always work with the native Sandia protocol.
2. Set up Modbus in the “Configure” column/ “Configure 2” screen.
a. Baud rate should match the baud rate of the modem connected to the remote port of the
instrument.
b. Parity: Even/ Odd/ None. Select this option for Modbus.
c. Modbus address: Default is “001” Use this for multi-dropping more than one unit to the
same modem (Range= 001- 255)
d. Modbus Mode: ASCII or RTU.
24
DOWNLOADING AND PRINTING DATA
To download data follow the steps below:
1. Run the HVC Host software
2. Go to the “Data” column.
3. Select the report to download: “Download IOR” or “Download Profiler Report”
4. Click “save” button to save file
5. Click “OK” after file is saved
To print IOR (Instrument Operational Report) data follow the steps below:
1. Run the HVC Host software
2. Go to the “Data” column.
3. Select the report to print: “Print IOR Database”
4. Choose the filename of file to report
5. Choose the time span to report on the calendars or choose “Last Report”.
6. Select to “Send output to”:
a. Console (Creates text file and you can view the file on your screen)
b. Printer (Prints report on the printer that is attached to the computer)
c. File (must type a filename for a text document that will be created. Example: IOR.doc)
To print Profiler data using standard format follow the steps below:
1. Run the HVC Host software
2. Go to the “Data” column.
3. Select the report to print: “Print Daily” or “Print Monthly Report”
4. Choose the filename of file to report
5. Choose the time span to report on the calendars
6. Select “Send output to”:
a. Console (Creates text file and you can view the file on your screen)
b. Printer (Prints report on the printer that is attached to the computer)
c. File (must type a filename for a text document that will be created. Example: Monthly.doc)
To print Profiler data in Excel & generate a chart, follow the steps below:
1. Run the HVC Host software
2. Go to the “Tools” column.
3. Select “Convert Flat File to CSV”.
4. Choose the file to print and click “Open”.
5. Choose the Start and End of the report/ OR just click “OK”/ which will select the default, which
will include ALL data.
6. The program Excel will automatically run including the data selected.
7. Double-click between the “A” and “B” cells (at the top) to automatically size the date and time
column.
8. Select the data to graph.
9. Click the “Graph” icon in Excel. Or select the “Insert” tab and select the Chart type.
10. Follow the instructions to customize the graph.
11. If you need help using Excel, select “help” in Excel.
25
Configuring for use with an IP modem
1. Select “Host Setup” – “Configure Host”.
2. Click the “Network” Port Selection and then click “OK”.
Click when finished
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2
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3. Select “Host Setup – Master Directory”.
4. Click on the “New IP Addr” button.
2
1
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5. Enter the IP address, Port Number and choose a Name/Location for the installation.
In the COM Selection drop-down box, click on “Select 4 – TCP/IP” and then click “OK”.
Click “OK” back on the Master Dialing Directory window to accept the information.
The screen shown below is an example using the Heath engineering HVC instrument.
6. To begin using the IP modem it must be wired correctly, configured properly and powered up.
The HVC modem port baud rate must match the IP modem baud rate. Refer to the IP modem
manufacturer’s users manual for further information on its use and configuration.
7. Select “Comm” / “Network” / “Start Session” to begin a network session.
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2 3
Click when finished
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8. Double-click the IP modem’s site name or single click the site name and then click “OK”.
Or select “New IP Addr” to add the IP address, Port number, Name/Location, Sandia ID (63 is Default
and will work with all instruments), Password (“logon” is default) & Com port selection (Select the port
with TCP/IP. Editing is also available with this screen if needed by selecting the “Edit” button.
9. While connecting to the IP modem a status window will appear.
The IP address and Port shown below are an example only. The actual values will differ.
10. Once connected, the Host screen will indicate the connected IP address in yellow at the bottom of the
window.
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2
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11. Select “Security – Logon Instrument” to logon to the remote HVC. When successful, “Logged ON”
will be indicated in green at the bottom of the window.
NOTE: Please be patient while logging onto the remote HVC. It can take several seconds to logon due
to network traffic and delays.
12. To illustrate remote IP modem communication, select “Display – Display 1 Volume Report”.
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13. The Volume Report window will appear after the data has been gathered and communicated.
14. Remote HVC IP modem communications are available for use using the HVC Host.
When finished, exit remote IP modem communications by selecting “Comm – Network – End Session”.
The remote HVC will be logged off and the network session will end.
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2 3
Click when finished
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Annual Checks/Calibrations/Procedures
NOTE: Heath Consultants recommends annual checks on the HVC.
1. Verify calibration and recalibrate if required.
2. Verify proper battery main voltage (1.2 - 1.5 volts).
3. Verify proper battery Lithium backup voltage (3.4 - 3.6 volts).
4. Change batteries if necessary.
5. Assure that index is operating properly.
6. Check for corrosion at wire terminations & around the battery itself.
Pressure Calibration:
Note: Before removing pressure from the HVC follow these steps below:
1. Using HVC Host, go to the “Calibrate” column/ select “Calibration Wizard”.
2. The HVC will lock in the last read pressure until the calibration is complete. 3. Now connect a pressure gauge or dead weight tester.
4. Select “Two Point Gas Pressure Calibration”.
5. Click “Begin”.
6. Apply 20% of full scale pressure measured with standard reference gauge or deadweight.
7. Click “Next”.
8. Wait 10 seconds to get a stable reading and click “Next”.
9. Enter Pressure reading indicated by standard gauge and click “Next”.
10. Apply 80% of full scale pressure measured with standard reference gauge or deadweight.
11. Click “Next”.
12. Wait 10 seconds to get a stable reading and click “Next”.
13. Enter Pressure reading indicated by standard gauge.
14. Click “Next”.
15. At the calibration comparison screen, click “Done”.
16. Select “Update Inst” button to save the calibration.
17. Then click the “Cancel” button.
18. A message “Procedure Complete: Instrument operation has returned to normal.
19. Click “OK” button.
Temperature Probe Calibration: Note: Before removing temp probe from the pipeline, read below:
Follow the Pressure calibration procedure except:
Step 3 is “Remove the temp probe from the pipeline & place in insulated container of ice water (32DegF).
Step 4 is Select “Two point Gas Temperature Calibration”.
Step 6 is “Temp probe already has 32degF applied to the temp probe- measure with a standard temperature gauge”.
Step 9 is “Enter Temperature reading indicated by standard gauge and click “Next”.
Step 10 is “Apply 115-125deg F to the temp probe (place in hot liquid in a insulated container)- measured with a standard temperature gauge”.
Step 13 is Enter Temperature reading indicated by standard temperature gauge.
Main battery change procedure: (Recommended) Download all data & backup the HVC Configuration file. Make sure the lithium backup battery voltage is 3.5-3.6v. Pull the main battery connector off and remove the main battery. Connect the new main battery and route the battery wire away from the index. Secure the battery with o-ring.
Note: To clear ANY alarm, Hold the scroll button for more than 4 seconds. The main battery HPN is 77R91-1037.
Mechanical Index change procedure: Remove the plate covering the main pcboard. Disconnect the index connector
(J-11) at the main pcboard. Remove the (2) ¼-20 nuts & washers behind the index. Lift the index out carefully.
To install: Place the index over the ¼-20 studs. Carefully align the coupler making sure the index is sitting flat and level. Install the washers and nuts and secure with 7/16” socket. Tip: Use a small screwdriver or “Allen wrench” to guide the washer and nut onto the stud. Route the wires and install the connector on the main pcboard. Re-install the plate that covers the main pcboard. The standard index HPN is 77R61-9719.
Instrument Configuration Backup procedure: Using HVC Host, select the “Configure” column, select “Auto Configure”, select “Backup Instrument”, select “Save”.
Instrument Configuration Restore procedure: Using HVC Host, select the “Configure” column, select “Auto Configure”, select “Restore Instrument”, select “Restore”, select the file to restore, Select only the items to restore or choose “All the above”, select “OK”.
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Back-up Battery Replacement Procedure
This procedure describes how to replace the lithium back-up battery BT1 (HPN 77R65-8001) and the
profiler back-up coin cell battery BT2 (HPN 77R65-8002). It is recommended to replace both batteries at
the same time. If configured, the instrument will alert the user of a low lithium back-up battery on the LCD
and via being connected to the instrument either by direct RS-232 or modem.
Replacing the lithium back-up battery: Warning – make sure the main battery voltage is at least 1.2
Vdc!
1. Remove the metal shield from the PCB. Take care not to lose the hardware.
2. Locate BT1 in the lower middle part of the PCB. Refer to the photos below:
3. Lightly push down on the center retainer clip and use a small, thin bladed screwdriver to gently pry
the latches on the retainer clip free from the holder.
4. Remove the lithium battery and retainer clip from the holder.
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5. Remove the retainer clip from the lithium battery.
6. Observe the correct polarity of the lithium battery in the holder and insert the new lithium battery
into the holder.
***WARNING: Reverse battery polarity may cause a fuse to blow on the PCB.
7. Install the retainer clip over the lithium battery and verify both latches seat properly onto the holder.
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Back-up Coin Battery Replacement Procedure (This battery saves the Profiler memory if both the Main and Lithium battery power are lost)
Note: Replace coin battery with a number CR2032 battery.
Warning – make sure the main battery voltage is at least 1.2 Vdc!
1. Locate BT2 in the lower left corner of the PCB.
2. Insert a small, thin bladed screwdriver into the gap on the left side of the battery and gently pry the
left side up.
3. Remove the old battery. With the “+” of the new CR2032 coin cell battery facing up and at an
angle, insert the battery under the two clips on the right hand side of the holder.
4. Push down on the new CR2032 coin cell battery until it snaps into its holder.
5. Install the metal shield back over the PCB with its hardware.
Note: To clear all alarms, hold the scroll button closed for more than 4 seconds.
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Replacing or Upgrading a Transducer
1. Physically install the transducer into the bulkhead using the proper thread tape.
2. Install the bulkhead into the housing making sure the gasket is in place.
3. Remove the main pcboard cover-plate (Remove the (4) nuts on the corners).
4. Plug the transducer into the upper right-most connector (J5).
5. Go to Calibrate column/”Import Poly file” & select file for the transducer that will be added (If this file is
not found, contact Heath Consultants tech support to get this file emailed).
6. Go to the “Calibrate” column/ “Calibration Wizard”/ select “Two Point Gas Pressure Calibration”.
7. Click “Begin”.
8. Apply 20% of full scale pressure measured with standard reference gauge or deadweight.
9. Click “Next”.
10. Wait 10 seconds to get a stable reading and click “Next”.
11. Enter Pressure reading indicated by standard gauge and click “Next”.
12. Apply 80% of full scale pressure measured with standard reference gauge or deadweight.
13. Click “Next”.
14. Wait 10 seconds to get a stable reading and click “Next”.
15. Enter Pressure reading indicated by standard gauge.
16. Click “Next”.
17. At the calibration comparison screen, click “Done”.
18. Select “Update Inst” button to save the calibration.
19. Then click the “Cancel” button.
20. A message “Procedure Complete: Instrument operation has returned to normal.
21. Click “OK” button.
22. Go to “Display 4 /Calibration Terms” to confirm the calibration date-stamp has been updated.
HVC Firmware Update Procedure (This update will not delete Cal & CFG. However, it WILL delete historical Profiler data & zero Uncorrected
& Corrected volume readings). To get the firmware file, contact Heath Consultants Inc. tech support.
1. If historical data is needed, download the Profiler first (Data/Download Profiler).
2. Go to: Display/ Diagnostics/ “HVC models update ROM”.
3. At the “Warning” screen, select “YES”.
4. Enter YOUR User Name (Min 3 digits/ Your initials or first name will work).
5. Select “Load” (Do not change the selection“Firmware W/O Cfg & Cal”- * Unless the firmware has a problem
and the memory needs to be reset). Selecting “W/O” CFG & Cal” will save the Calibration & CFG.
6. Select the “Hex” file: (HVC_Firmware_403.a43).
7. Select “Open” to start loading the firmware file (HVC_Firmware_403.a43).
8. Watch & wait: The program will show “addresses” and “bytes written” while programming the firmware.
9. Select “Cold Start” when “Status” shows “Program Loaded Successfully” (This will clear the Profiler log
memory). Warning: Selecting “Warm Start” will also erase the Profiler log memory.
10. Exit to normal operation.
If firmware is loaded “With default Cfg & Cal”, follow these steps to load the transducer data, CFG & Cal:
11. Go to the “Configure” column, select “Auto Configure”, select “Restore Instrument”.
12. Select the file to restore & click “Open”. (If no file has been previously saved, contact Heath for this file).
13. Select “All of the Above” and click “OK”. At the “Confirming” window, click “OK”.
14. It’s recommended to reset the Profiler following any scale factor configuration changes.
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Follow Procedure to Update HVC Firmware
Logon to the instrument (Security/ Logon)
Select “Display” column
Select “Diagnostics”
Select HVC Models Update Rom”
At the “Warning” window, select “Yes”
#3
#2
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#6
Same filename
#7
#4 Enter YOUR name
here
Select this to save Cal & CFG
Select this to default Cal & CFG (This clears
all CAL & CFG & will need to be restored).
This clears Cal & CFG.
#5
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Watch & wait
#8
Active during update
Programming firmware
Successful
#9 #10 Exit to normal operation
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#12
#11
#13
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HVC Specifications
Functionality Profiler Data Recording: Circular log; 130 days/hourly; Time/Corrected/Uncorrected/Ave Pressure/ Ave Gas
Temperature
Non-volatile Flash Memory: Prevents loss of calibration and configuration if all power is lost
Event Log: Records alarms & configuration changes
System Alarms: H/L Press, H/L Temp, Main and back-up Battery
Contract Usage Alarms: High Day; Warning Month; High Month
Contract Management: Nomination, Allocation
Communication Protocols: Sandia (native); Modbus RTU; Modbus ASCII
Pressure ranges available (shown as PSIG): 1, 3, 6, 15, 30, 60, 100, 150, 300, 500, 1000, 2000, 3000, 5000
Units of Measure: PSIG, KPA, BAR, Deg. F, Deg. C
HVC Host: Win 7&8, Win XP & Win Vista Compatible & works with: HVC, RVC, XVC & LVC instruments
Supercompressibility Calculation Method: NX-19
Mechanical Housing: Aluminum
Dimensions: Overall 8.65” x 6.25” x 4.65”
Weight: 6 lbs (including battery)
Mounting: Universal rotatable base plate
Pressure Connection: ¼” NPTF
Temperature Probe: ¼” O.D. x 6” probe x 6’ long armor; ¼” NPTM slip fitting
Security: Stainless steel padlock hasp
Coating: IP64, Aluminum, Powder coated paint over chromate surface prep
Display Scroll: Push button switch
Drive Mechanism: Universal drive dog, reversible mechanical Brass gear train
Display: Odometer style index, eight digits uncorrected volume counter
Electrical Primary Power Pack: 1.5 volt; 1 “D” cell alkaline battery with IS protection board.
Back Up Power: 3.6 volt field replaceable lithium cell
Transducer: 10 millivolt per volt excitation; 12 point polynomial compensation
Temperature Sensor (gas and air): Integrated circuit type
Flow Detector: Falling magnet/ reed switch input pulse
Display: LCD continuous eight digits/ displays Corr & Uncorr volume, C.F., press, temp, batt volts & alarms
(defaults to Corrected volume reading after 4 minutes)
Com 1: RS-232 via serial cable (If a 9-pin connector isn’t available on the PC, use a USB to Serial adapter)
Com2: RS-232 modem & multi-drop addressable, Sandia (native protocol) or Modbus
Performance Accuracy: +/- 0.5% of reading inclusive of linearity, hysteresis, repeatability, long term drift & temperature
Temperature: -40°F to + 170°F
Humidity: 5 – 95 % non-condensing
Primary Power Pack Life: Up to 4 years based on a 1 minute wake-up interval
Back-Up Power Life: Up to 1 year based on a 1 minute wake-up interval
Options External power: Allows connecting 6V-15VDC from external power source
Communication: Internal 2400 baud “land line” modem, Multi-drop capable, external Radio modem, Cell
modem, IP Modem, surge protection
Certifications Intrinsic Safe: UL 913 and CSA C22.2, Class I, Division 1, Group D
CE: EMC directive EN 61326-1
Corrosion Resistance: MIL-STD-810F
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HVC Troubleshooting
The following may serve as a quick troubleshooting guide if you encounter problems in operating the
HVC:
Symptom Diagnosis
Will not log on Verify that proper com port is selected in HVC Host/ “Host Setup”.
(If a Serial to USB adapter is used, find out the proper com port selection
in the Windows “Device Manager”)
If error “Com not ready to send” check to see that only 1 session of
HVC Host is running. After correcting problem, it may be necessary to
reboot the computer.
Make sure that “Default Sandia=ID” in “Host Setup” is set to 63.
Check Com cable with ohmmeter
Check if pushbutton will scroll unit
Check battery voltage on LCD
Call factory for assistance.
Call factory for assistance
Will not scroll
Check battery voltage (Replace if necessary)
Test scroll switch with ohmmeter
Restart instrument: Document volume readings, Remove main power
connector and then remove the lithium jumper (JP 1) on the PCB. Wait 2
minutes, reconnect the main power first (with good battery), then re-
connect the lithium jumper. Re-enter volume readings & reset “Real Time
Clock” (Config 1/ Profiler data may be lost after restart).
Call factory for assistance.
Display is blank
Check main & lithium battery voltage
Replace all batteries if necessary
Check lithium jumper (Scrape pins with a knife to clean if necessary)
Restart instrument. Remove and replace batteries and reconnect.
Call factory for assistance.
Not responding to
applied pressure
Confirm pressure mode set to AUTO
Check connections of transducer wires
Check “Full Scale” value in poly file. Calibrate column/ “Edit Calibration
Terms”, enter the correct “Full Scale”
Set the pressure calibration to default. -> “Calibrate” Column/ “Edit
Calibration Terms” -> click the check box next to Pressure Calibration
“Default”. Note: Recalibrate Pressure after these steps.
Replace transducer and recalibrate
Call factory for assistance
Pressure not correct
in Profiler (Display &
LCD is correct)
Reset profiler to update the Profiler header. (“Configure” Column/ “Reset
Profiler”. At the “Warning” screen, click “Yes”. Warning: This will erase
all Profiler data. If data is needed, download Profiler data first.
Instrument is locked
up or not functioning
correctly
Reload instrument firmware. Remove all power (Main batt & Lithium
jumper-J1). Wait 2 mins. Hold scroll button, then connect the main
battery first, then connect lithium jumper. The LCD should show: - -
Lodr- -. Follow the procedure on page 30-32 selecting “Firmware (W
default Cfg & Cal)” and “Cold Start” to ensure all memory is cleared.
Then send config file: Config/ “Auto-config”/ “Restore Instrument”
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Symptom Diagnosis
Not responding
to temperature
(Possible
“Fault” display)
Confirm temperature mode is set to AUTO
Check connections of temperature probe wires.
If “Fault” is displayed, this could indicate a bad temp probe connection.
Set the Gas temp calibration to default. -> Calibrate Column -> Edit
Calibration Terms -> click the check box next to Gas Temp Calibration
“Default”. Note: Recalibrate Gas Temp after these steps.
Replace with a known good temperature probe, retest & recalibrate.
Call factory for assistance.
Instrument Shows
“Fault” (T-probe or
power cycle)
Reset “Fault” by going to the “Configure” Column/ “Alarms and
Nominations”, select “Reset All Active Alarms” or hold the scroll switch
for more than 4 seconds.
Abnormally high
accumulator
value(s) factors
Check Uncorrected, Corrected and Meter Drive factors are proper.
Make sure that the index- Magnet/ reed switch is operating properly.
Call factory for assistance.
Abnormally low or
no accumulator
value(s)
Check Uncorrected, Corrected and Meter Drive scale factors are proper.
Check instrument configuration & make sure UnCor Vol Input is set to
“Digital”.
On Index, make sure magnet is dropping passed the reed switch.
Check to see that the index is not binding or gears are not slipping.
Check wiring between index reed switch and the main board.
Replace index or try new reed switch.
Call factory for assistance.
Error downloading
Profiler file: “Invalid
Host File.
Rename, move or delete the host profiler file and then re-download the
Profiler data. This allows a new file to be created.
Call factory for assistance.
When calling the factory or your area representative for further troubleshooting, please have the
following information ready:
Customer Information
1. Name(s)
2. Company
3. Phone Number(s)
4. Location (site I.D.)
Hardware Information
1. Model of Instrument
2. Instrument Firmware Version
3. Battery Voltage.
4. Instrument Serial Number
5. Date of Manufacture
6. Transducer Serial Number(s) (If Applicable)
7. Any externally connected devices
8. Phone Number (If Applicable)
9. Most Recently Printed IOR Report (If Applicable)
43
Spare Parts & Accessories Pressure Transducer
The HVC may be equipped with a wide variety of ranges, most of which are available in either gauge or
absolute.
Temperature Probe
Temperature Probes are normally supplied with six-foot long metal sheathed cable. Contact factory
for non-standard lengths. The temperature probe is HPN 77R91-1035.
Modem (Internal Modem Assembly Retro Kit Part #77R61-9360)
Contact the factory for other configurations. Heath industrial modems are available in one of two
configurations–internal or external.
The standard HVC is ready for remote RS232 communications (with modem wiring harness). This will
allow many different communication options: CDMA (Cellular), IP, Radio, LAN or Satellite modems.
DESCRIPTION Heath PART# Communication Cable (6’/9pin) 77R61-0070
Battery Pack (I.S.) Black 77R91-1037
Battery Pack (Non I.S.) Blue or Yellow 77R91-1091
O-ring for battery Pack holder 77R91-1037
Lithium Back-up Battery 77R65-8001
Coin Battery 77R65-8002
Modem (Internal 2400 Dial-up)
Spare Internal Modem Battery Pack 77R61-9370
Telephone Surge Protector 77R61-9366
Internal Modem Assembly Retro Kit 77R61-9360
(Does not include surge protector)
Mounting kits
Standard HVC Mounting Kit 77R61-9220
Large HVC Mounting Kit 77R61-9580
Index Assembly 77R61-9719-1
Spare PC Boards
Spare Main PCboard 77R65-9320-1
Spare Internal/External Modem PCboard 77R65-9216
External Temp Probe (6’ cable X 6” probe) 77R91-1035
Spare Transducers Contact factory
External modem harness (locking connector) Contact factory
External modem harness (for dial out upon alarm) Contact factory
External power harness (locking connector) Contact factory
Pulse output harness 12V (locking connector) Contact factory
HVC Host software Contact factory
44
Service Information: Warranties and Warranty Repair
The HVC is warranted to be free from defects in material and workmanship for four (4) years from date of
shipment (exclusive of the batteries).
The warranty on authorized repairs in the Houston Factory Service Center (FSC) is ninety (90) days for
materials and labor. This repair warranty does not extend any other applicable warranties.
Our warranty covers only failures due to defects in materials or workmanship. It does not cover failure due
to damage which occurs in shipment, unless due to improper packing.
It does not cover failures, which result from accident, misuse, abuse, neglect, mishandling, misapplication,
alteration, modification, or service other than the Houston FSC or other authorized repair center.
Batteries and damage from battery leakage are excluded from this warranty.
HEATH’s responsibility is expressly limited to repair or replacement of any defective part, provided the
product is returned to HEATH FSC or an authorized FSC, shipped pre-paid, and adequately insured.
Return shipping and insurance will be at no charge to the purchaser.
HEATH does not assume liability for indirect or consequential damage or loss of any nature in connection
with the use of any HEATH product.
There are no other warranties expressed, implied, or written except as listed above.
Obtaining Service To expedite the repair of your instrument, please follow the following procedure:
1. Contact HEATH Customer Service at 1-800-HEATH-US to obtain a Return Authorization
tracking number. Repairs can be significantly delayed until authorization is obtained.
a. Specify your complete shipping and billing address.
b. Specify the person and contact information to be contacted for repair and shipping
authorization.
c. Specify the instrument product name and serial number.
d. Include a brief description of the problem you are experiencing.
e. Specify the person and contact information to be contacted for additional information
regarding the symptoms of the failure.
2. Package and ship the HVC to the appropriate location.
3. Please specify the tracking number, product name, and serial number on all correspondence.
45
Configuration Worksheet Complete this worksheet prior to leaving the meter shop to facilitate field configuration and
documentation.
Always remember to download the IOR Snapshot or Configuration Log reports as a record of
instrument configuration.
Site Information: Site Address: Unit Serial #: ____ ___ _ Site/Meter ID: ________
Configuration Item Value
Meter Drive (Input Scale Factor):
Uncorrected Volume Display Scale Factor:
Leading Digits:
Leading Blanks:
Corrected Volume Display Scale Factor:
Leading Digits:
Leading Blanks:
Uncorrected Volume:
Corrected Volume:
Base Pressure:
Zone Pressure:
Specific Gravity:
Percent Carbon Dioxide:
Percent Nitrogen:
Wakeup Method:
Meter Rotation:
Meter Speed:
Pressure Reference:
Pressure Mode:
Temperature Mode:
Fpv Mode:
High Pressure Alarm Mode:
Trip Point:
Low Pressure Alarm Mode:
46
Configuration Item Value
Trip Point:
High Temperature Alarm Mode:
Trip Point:
Low Temperature Alarm Mode:
Trip Point:
Low Battery Volt Alarm Mode:
Trip Point:
High Contract Month:
Trip Point:
Warning Contract Month:
Trip Point:
High Contract Day:
Trip Point:
Nomination:
Allocation:
Time Zone:
Start of Day Hour:
Start of Month Day:
Output Pulses Y/N:
Uncorrected Pulser Scale Factor:
Corrected Pulser Scale Factor:
Output Pulse Rate 8 per sec. or 1 per sec. :
Modem Configuration Value
Remote Modem Baud Rate:
Parity:
Sandia ID:
MODBUS Address :
MODBUS Mode :
Alarm Host Number:
Modem Init String:
Modem Hang Up String:
47
Technical Support
1-800-HEATHUS (1-800-432-8487)
Heath Consultants Factory Service Center
9030 Monroe Road
Houston, Texas 77061
Phone: (713) 844-1350
Fax: (713) 844-1398
Heath Consultants Incorporated operates under a continual product improvement program and reserves the right to make
improvements and/or changes without prior notification.
Heath Consultants Inc.
9030 Monroe Rd.
Houston, TX. 77061
1-800-HEATHUS Fax: (713) 844-1398
www.heathus.com