TELEFAX COVER SHEET - benchmarkwireline.combenchmarkwireline.com/HES WORD/1_46 panel manual...
Transcript of TELEFAX COVER SHEET - benchmarkwireline.combenchmarkwireline.com/HES WORD/1_46 panel manual...
OPERATIONS AND MAINTENANCE MANUALDISPLAY PANEL
Manual p/n D00137399 A
HALLIBURTON CASED HOLE CONFIGURATION
SAP p/n 101331662Benchmark p/n AMS4A046
TABLE OF CONTENTS
SECTION DESCRIPTION
1.0 QUICK START PROCEDURE AND OBTAINING TECHNICAL ASSISTANCE2.0 DETAILED DESCRIPTION OF FEATURES3.0 MENU COMMANDS4.0 OPERATION, SETUP, AND MAINTENANCE PROCEDURES5.0 SPARE PARTS6.0 WIRING DIAGRAMS, SCHEMATICS AND SETUP PROCEDURES
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1.0 QUICK START PROCEDURES
1.1 Make sure the panel is connected to the measuring head and the acquisition system using signal cables.
1.2 Power up panel and verify it is working properly. The panel is powered from +12/24vdc.
1.3 Set up the panel to match the encoder PPR – if the encoder on the measuring head is 1200 pulses per revolution, set the ENCPPR setting in the panel to 1200.
1.4 Spin the measuring head measuring wheel one revolution to make sure the panel is reading depth properly – One turn of the wheel for an AM5K should read exactly 2 feet. Make sure the direction is correct.
1.5 Verify the panel is configured to match the system (Acquisition System, encoder, etc.)
1.6 Set up acquisition system to match the encoder output signal from the panel (SYS PPF) – refer to section 3.
1.7 Calibrate tension signal on acquisition system. Pressing T-Test will output a constant 3250 pound signal to use to calibrate the acquisition system tension.
1.8 Set line size to match cable size installed in head (refer to section 3).
1.9 Set Tension Alarm value (refer to section 3).
1.10 Set depth adjust value (refer to section 3).
1.11 Install wireline cable into measuring head.
1.12 Pull tool to depth 0 position.
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1.13 Let wireline go slack (release any tension).
1.14 Press D-Zero and verify that panel depth reads 0. Set acquisition system depth to 0 at this time.
1.15 Press T-Zero to zero the tension value.
1.16 Press T-Test and verify that panel tension reads 3250 lbs (1475 kg) in AM5K mode or 5000 lbs (2268 kg) in AM3K mode. Verify tension is being properly recorded on acquisition system.
OBTAINING TECHNICAL ASSISTANCE
Call BenchMark Wireline Products Inc. at +1 281 346 4300Or contact by email [email protected] fax in request at +1 281 346 4301
Information in the form of user manuals and instructional videos are also available on our website www.benchmarkwireline.com
Parts can be ordered by email, phone, or fax
Equipment can be returned for repair and maintenance. Please notify us by Phone, email, or fax before sending any equipment.
To return equipment to BenchMark, ship it to:BenchMark Wireline Products36220 FM 1093Simonton, Texas 77476U.S.A.
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2.0 INTRODUCTION2.1 GENERAL DESCRIPTION
This panel is designed to acquire and display depth and tension data from a wireline logging winch unit. The panel provides the operator a means to set and make adjustments to the data as necessary.
Depth is displayed from data provided from an encoder mounted on a measuring device. The encoder quadrature pulses are passed through to the acquisition system. The tension data is provided by a load pin and is also passed through to the acquisition system.
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2.2 FEATURES
Digital displays for depth, line speed, tension and magnetic marks (or CCL offset)
Analog incremental tension meter, 4 inch (108 mm) dia., 270 degree
Differential or Incremental tension zero push button switch
Excessive tension alarm setting allows operator to set tension alarm to a predetermined value. Contact closure is provided for winch shutdown
Zero Depth button - sets depth to 0. Depressing button again resets depth to previous setting. Can only be set when line speed is zero
Approaching surface alarm
Depth adjust up or down switches. Can only be set when winch is stopped
Load pin zero & calibrate controls.
Depth & tension saved in non-volatile memory at power loss
Outputs for Magnetic Marks, Tension and Encoder to interface to an acquisition system.
RS232 Interface for additional control and data outputs.
Can be configured for any combination of FEET/METERS or POUNDS/KGS
Internal data recorder with USB interface
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2.3 GENERAL SPECIFICATIONS
Width 19.00 in .482 m
Height 5.22 in .132 m
Depth 5.00 in .127 m
Weight 5.50 lbs 2.49 kg
Temperature Rating -20 to 140°F -28 to 60°C
Power Supply 12-24 vdc @ 2 A max
Maximum Line Speed 3,000 ft (914 m) /min @ 600 pulses/ft
Minimum Line Speed .6 ft (.18 m) /min
Maximum Line Tension 25,000 lbs (11,340 kg)
Digital Tension 6 digits with 1 lb or 1kg resolution
Digital Line Speed 6 digits with .1ft or .1m resolution
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2.4 DETAILED DESCRIPTION OF FEATURES
2.4.1 FRONT PANEL
2.4.1 ANALOG TENSION METER
This meter displays either differential or incremental tension. This provides a more visual display of tension change.
2.4.2 INCREMENTAL/DIFFERENTIAL TENSION SWITCH
This switch will change the analog meter from Incremental tension to Differential tension.
Incremental tension provides a high resolution tension scale. It must be periodically reset as tension increases or decreases to keep it from pegging out.
Differential tension provides a delta tension reading. The meter will slowly reset itself to 0 so the reset switch is not necessary.
2.4.3 METER RESET SWITCH
This switch will reset the meter to the 0 (center) position.
2.4.4 DEPTH DISPLAY
This meter provides a digital display of depth.
2.4.5 LINE TENSION DISPLAY
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This meter provides a digital display of total line tension.
2.4.6 LINE SPEED DISPLAY
This meter provides a digital display of line speed.
2.4.7 MMD / CCL DEPTH DISPLAY
This meter provides a digital display of the CCL offset depth (difference between CCL and Bullplug). This depth can be set to provide a visual indication of the CCL depth.
If CCL LOG is selected, the panel will freeze and display the depth where the collar was detected. The CCL signal is provided from the CHIP panel output.
2.4.8 MAGNETIC MARK RESET
Not used.
2.4.9 ZERO DEPTH
Pressing this button will reset the depth to 0. Depressing the button again will reset the depth to the previous setting. The Zero Depth button will only work when the line speed is zero (i.e. winch not moving).
2.4.10 MENUPressing this button will activate the menu software. The software feature to be set will be displayed on the DEPTH display. The features can be toggled through by pressing the menu button until the desired feature is displayed.
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2.4.11 + / - SWITCH
This switch is used for different functions. It is used to change the depth setting in either an up or down direction. The winch must be stopped before the depth can be set. In menu mode (see section 3.0) the switch is used to set menu parameters.
2.4.12 ALARM RESET LED AND ALARM
This LED is lit and an audible alarm is sounded when the depth is less than 200' (60 m). This is a warning to the hoist operator that they are approaching surface and should take care to get the equipment safely out of the well. When the LED is depressed, the alarm will stop but the LED will continue to blink. Once the depth reading is greater than 200' (61 m), both the alarm and the LED will turn off.
This switch also has a second function. In the event of an overtension condition that sets the overtension relay, this button must be pressed to reset the relay (refer to section 3.1).
2.4.13 ENGLISH / METRIC UNITS
These LEDs will indicate if the panel is in English or metric mode. If the depth is set to English, the English LED will be lit. If the depth is set to Metric the Metric LED will be lit. The tension can be set to English (LBS) or Metric (KG) but it will not light the LED.
2.4.14 T-ZERO SWITCH
Use this switch to set the tension to 0 at the start of a logging run. This will zero out the tension circuit. The line should be slack through the head at this time.
When T-ZERO is pressed the actual Mv reading will be displayed on the line speed meter.
The depth must be at 0 (+/- 1 foot) in order to be able to set the zero.
If the depth is greater than +/- 1 foot when T-ZERO is pressed, the tension displayed will include the load cell angle.
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2.4.15 T-TEST SWITCH
Press T-TEST and verify that the panel tension properly reads the value returned for the measuring head. When an AM5K is selected, the panel should then read 3250 lbs. (1475 kg).
If an AM3K head is used the panel should then read 5000 lbs. (2268 kg).
When T-TEST is pressed the actual mv reading will be displayed on the line speed meter.
The depth must be at 0 (+/- 1 foot) in order to be able to calibrate tension.
If the depth is greater than +/- 1 foot when T-TEST is pressed, the tension displayed will include the load cell angle.
Verify tension is being properly recorded on acquisition system.
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2.5 REAR PANEL
2.5.1 J1 - 12 – 24 VDC
This connector supplies dc power for the panel operation (9 VDC min, 30 VDC max). The panel can operate on either 12 or 24 vdc (12 vdc is U.S. truck standard voltage, 24vdc is the European truck standard voltage). Pin A is positive, pin B is negative.
2.5.2 J2 – LOAD CELL IN
Load Cell excitation voltage is provided to the load pin and signal is received from the load pin on this connector.
2.5.3 J3 – ENCODER 1 IN
+5 vdc power is provided to encoder 1 and signal is received from encoder 1 on thIs connector.
2.5.4 J4 – MMD/CCL IN
DC power is provided to the magnetic mark detector and signal is received from the mark detector on this connector. The CCL signal is also received on this connector.
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2.5.5 J5 – ENCODER 2 IN
+5 vdc power is provided to encoder 2 and signal is received from encoder 2 on thIs connector.
2.5.6 J6 – RS232 SERIAL INTERFACE
This connector provides an RS232 interface from the panel to the acquisition system. This provides a means to control the panel and read data from the panel using a PC (refer to section 6.4).
2.5.7 J7- ENCODER OUT
Encoder quadrature signals are passed through this connector to the acquisition system.
2.5.8 J8 – TENSION OUT
A 0 – 10vdc tension output is provided from this connector. This signal is supplied to the acquisition system.
2.5.9 J9 – REEL SAFE CONNECTOR
This connector provides a connection to the overtension circuit relay and provides encoder quadrature signals.
When an overtension condition is active, the two pins are connected together. In normal position the two pins are open. This feature can be used to interface to the winch unit control system to provide automatic hoist shutdown when an overtension condition is reached.
The encoder signals are used as an input to the REEL SAFE panel.
NOTE – newer panels us a 12-pin J9 connector with additional signals available:1. Encoder out signals identical to J72. Can bus signals
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3.0 MENU COMMANDS
This panel has internal software which allows it to be set for various configurations. To change the settings, press the MENU button. The feature to be set will be displayed on the DEPTH display. Press the MENU button again until the feature you want to set is displayed.
The parameters for each feature will be displayed on the LINE TENSION display. Press the +/- switch to cycle through all the available parameters. When the value you want to select is displayed, press the MENU button. ACCEPT will then be displayed. Press + for yes, - for no.
Following is a listing of all the available settings.
3.1 TENSION ALARM
When this value is reached the warning alarm will sound. This value cannot be greater than the tension shutdown value.
Note: This value can be adjusted “on the fly” without stopping the hoist. The ACCEPT (Yes or No) is not used on this function.
Use +/- switch to set the tension alarm setting.
Indication: TENALM will be displayed on the DEPTH display and the value will be displayed on the TENSION display as it is being set.
Selection: Each cable size will have a corresponding Tension Alarm setting. Only the setting for the cable size selected (see menu option 2) can be adjusted.
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3.2 DELTA TENSION ALARM
When the delta tension setting is reached the alarm sounds. In incremental mode, you must periodically press meter reset or this alarm will sound when the tension reaches the set value. In differential mode, the meter will reset itself and the alarm will only sound on a quick change of tension.
Use +/- switch to set the Delta Tension setting.
Indication: DTALRM will be displayed on the DEPTH display and the value being set will be displayed on the TENSION display as it is being adjusted.
3.3 TENSION SHUTDOWN
This value determines when the shutdown relay is activated. When this value is reached then the hoist shutdown relay will be activated. If this value is less than the tension alarm value, it will automatically be set to match the alarm value. The Alarm Reset switch must be pressed to reset the over tension relay.
Use +/- switch to set tension shutdown setting
Indication: OVRTEN will be displayed on the DEPTH display and the value will be displayed on the TENSION display as it is being set.
Selection: Each cable size will have a corresponding Tension Alarm setting. Only the setting for the cable size selected can be adjusted.
Note: The RESET or Approaching Surface button needs to be depressed before the winch shutdown relay will de-energize.
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3.4 CABLE SIZE
Cable size selection automatically sets load pin angle setting for the selected cable size. Wheel size is also automatically set for the selected cable size.
Use +/- switch to select cable size.
Indication: CABLE will be displayed on the DEPTH display and the selections will be displayed on the LINE TENSION display.
Depending on the head type different line sizes are available
HEAD TYPE LINE SIZE
3K, 5K, LEE, OTHER 1-43K, 5K, LEE, OTHER 3-16
3K, 5K, LEE, OTHER 7-32 3K, 5K, LEE, OTHER 9-32
3K, 5K, LEE, OTHER 5-16 3K, 5K, LEE, OTHER 3-8
5K, OTHER 7-165K, OTHER 15-325K, OTHER 15-32 HT (deep grooved ten whl)5K, OTHER SLAM5K, OTHER SLAM HT (deep grooved ten whl)5K, OTHER S-SLAM (.484)
(deep grooved tension wheel only)5K, OTHER U-SLAM (.490)
(deep grooved tension wheel only) 5K, OTHER Other
When Line Size Other is selected, two more options are available. To determine the proper numbers to use consult the cable manufactures
Cable Weight (CBLWT) – pounds per thousand feet
Cable Stretch (CBLSTR) – feet of stretch per thousand feet per thousand pounds.
If LEE HEAD & CABLE Other (PSI2TN) .1-5 psi
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3.5 DEPTH ADJUST (Shim)
The shim amount selected will automatically be added or subtracted from the depth input.
Use +/- switch to set the shim setting.
Indication: DP-ADJ will be displayed on the DEPTH display and the value will be displayed on the TENSION display as it is being set. The values are feet / thousand.Default value is 0.
3.6 DEPTH ALARM
When this value is reached, the alarm will sound and LED will flash. Pressing the LED will turn off alarm but the light will continue to flash.
Procedure: Use +/- switch to set the depth alarm value.
Indication: DALARM will be displayed on the DEPTH display and the value will be displayed on the TENSION display as it is being set.
Default value is 200’
Note: An internal surface warning alarm is set for 200’ that cannot be changed or deactivated. This depth alarm can be adjusted to indicate other things besides approaching surface such as TD, casing shoe, tight spot in well, etc.
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3.7 CCL OFFSET /LOG
OFFSET (if OFFSET option is chosen)Use +/- switch to set the CCL offset depth
LOG (if CCL LOG option is chosenThe following menu options are available:
LOG CCLDisplays latest 100 collars. Will overwrite the oldest collar after 100.
CCL DLYUse +/- switch to set delay from 1.0 to -0.1 Adds or subtracts to detected collar depth.CCL_BPTurns detected CCL audio on or off.
STRCOR (stretch correction)Use +/- switch to toggle between ON or OFFWhen STRETCH Correction is on, the panel will automatically correct depth to compensate for cable stretch. The following information will then be requested:
Stretch in the wireline is compensated in the following manner:
As the tool is lowered into the well the depth traveled is measured using the optical encoders 10 times a second. The tension is used to “back out” the stretch on the wireline for that segment and a non stretched depth is calculated by keeping a tally of all of the segments. This summed value is used in the following manner to calculate the depth:
If the tension is less than the calculated line weight the tool is assumed to be floating or supported in some other manner. The tension is due to the line weight so the stretch added is = summed depth * tension * Ks * 1/2 where Ks is the stretch coefficient. If the tension is greater than the line weight the stretch due to the line weight is calculated as above and all other weight is assumed to be acting over the entire length of the cable or = sum depth *((line weight * ½) + (tension-line weight)) * Ks
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3.8 ENCODER
The value selected will automatically be used as the encoder input pulses per revolution (PPR) setting.
Use +/- switch to set the ENCODER Pulse Per Revolution setting.
Indication: ENCDER will be displayed on the DEPTH display and the value will be displayed on the TENSION display as it is being set.
Selection: Default value is 1200 for 5K and 3K, and 300 for LEE
3.9 ENCODER SELECT
This function allows the user to change encoders or utilize two encoders to read the one with the least wheel slippage.
Use +/- switch to select which encoder input on the rear panel will be used.
Indication: ENCSEL will be displayed on the DEPTH display and the encoder selected appears on the Depth display.
Selections available
a. ENC 1b. ENC 2c. BOTH – (if 5K head is chosen)
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3.10 ENCODER DIRECTION
The value selected will toggle the encoder direction between UP and Down.
Use +/- switch to set the ENCODER direction setting.
Indication: ENCDIR will be displayed on the DEPTH display and either Up or Down value will be displayed on the TENSION display.
Default value is Up.
Note: Encoder 1 will always turn the opposite direction from encoder 2. In direct mode (see section 3.11), the encoder output will be in the same direction as encoder 1.
3.11 ENCODER OUT
This setting determines which encoder pulses that will be output to the acquisition system. Two options are available, Direct or Corrected pulses.
Direct will send out encoder pulses identical to the uncorrected pulses coming from encoder 1. None of the corrections applied by the panel will be sent to the acquisition system.
Correct will send out encoder pulses to the acquisition system that include all the corrections that the panel applies such as Depth Adj (shim), MMD Correction, Wheel Size, etc.
Use +/- switch to switch between Direct (DIRECT) or Corrected (CORRECT) pulses.
Indication: ENCOUT will be displayed on the DEPTH DisplayIndication: DIRECT or CORECT will be displayed on the TENSION
display.
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3.12 SYSPPF
The setting determines the encoder output pulse per foot to the loggingsystem.
600 is the default.
3.13 DEPTH UNITS
The depth values will be displayed in the units selected.
Use +/- switch to set the DEPTH UNITS setting.
Indication: DEPTH will be displayed on the DEPTH display. The selection can be toggled between FEET or METERS. The selection will be displayed on the TENSION display. The ENGLISH (green) LED display will be lit when FEET is selected and the METRIC (red) LED will be lit when METERS is selected.
3.14 TENSION UNITS
The tension value will be displayed in the units selected.
Use +/- switch to set the TENSION UNITS setting.
Indication: TENSION will be displayed on the DEPTH display. The selection can be toggled between POUNDS and KILOGM. The selection will be displayed on the TENSION display.
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3.15 HEAD TYPE
This function allows the user to select the type of measuring head to be used with the panel.
Use +/- switch to select which head type will be used.
Indication: HEAD will be displayed on the DEPTH display and the encoder selected appears on the Depth display.
Selections available5K3KLEESLICKOTHER
If LEE is selected, (LEE CR), the wheel circumference will need to be set. The options are 1-2 meter, 2 feet or .2 meters. The tension reading can be adjusted by entering a coefficient value. This value will multiply the tension reading by 1+ the value. The range of this value can be adjusted from -.75 to +3.0.
If SLICK is selected, the wheel circumference value is set to .2 meters. The tension reading can be adjusted by entering a coefficient value. This value will multiply the tension reading by 1+ the value. The range of this value can be adjusted from -.75 to +3.0.
When OTHER is selected, some additional options will be made available.
WHLCIR is used to change the circumference of the measuring wheel. This option allows the panel to be set for a measuring head that uses different sized measuring wheels. Data entered is in feet.
If LEE Head or Slick Head is selected (TENCOF) allows setting the tension coefficient which is a tension multiplier factor.
LCCAL is used to set the value that the load cell shunt cal is set to i.e. 3250 lbs.
LCANGL is used to set the included angle of the cable and provide for different load cell sensitivities. If the load cell is mounted to a top sheave with the cable going around it at 180 degrees, enter 0 as the Load Cell
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Angle. If the load cell is mounted to a bottom sheave with the cable coming off at a 90 degree angle, enter 90 as the Load Cell Angle.
LCFSCL is used to determine the full scale reading of the load cell. A typical flat plate load cell has a full scale value of 30,000 lbs (15,000 X 2). A high tension load scale has a full scale value of 50,000 lbs (25,000 X 2).
LCMVPV is used to set the load cell mv/v setting. This value is needed to determine the output range of the load cell. Typical values a 2mv/v for a standard load cell and 3mv/v for a high range load cell.
SHTDWN “ON” “OFF” when “ON” this option allows an Over Tension Shutdown based on the tension shutdown value
NOTE: An Over Tension Shutdown is achieved by energizing the shutdown relay. The operator must connect a shutdown mechanism to the rear panel shutdown connector.
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4.0 OPERATION, SETUP, AND MAINTENANCE PROCEDURES
4.1 PROCESSOR REBOOT
In the event of a panel "lock up" or other malfunction, the processor in the panel can be rebooted by turning off the panel, depressing the T-ZERO and T-TEST buttons simultaneously then turn the power back on while the buttons are depressed. Keep buttons depressed for at least five seconds after power is restored. When the panel is rebooted, all the menu settings will be returned to the default settings.
The panel MUST always be rebooted after new software has been installed.
4.2 DIGITAL DISPLAY SETUP
The four digital displays can be set for address, baud rate, and brightness
The button nearest the connector selects the parameter (address, baud rate, brightness).
The center button increments the parameter up The end button increments the parameter down
After the parameter is set, press the parameter button again to store it.
The addresses should be set as follows:
Line Tension = 1Line Speed = 2Depth = 3MMD = 4
Set Baud Rate to 9600
Set Brightness to 15 Range is 0(dim) to 15 (bright)
PINS 1, 2, 7, 9 GNDPINS 4, 6, 8, 10 +5 VDCPIN 3 TXDPIN 5 RXD
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4.3 CCL BOARD SETUP
To test the operation of the panel, adjust R3 on the CCL/Fuse board toreceive satisfactory collars if needed. The boards were set to a thresholdvalue of approximately +1.5V input to the CCL circuit during testing.Setting the input to +1.5V would be a good starting point to set up thecircuit before installing the panel in a unit. CCW adjustments of R3 willraise the threshold voltage required to acquire a CCL mark (less sensitive).Example: If CCL marks are constant as the tools go down hole, adjust R3CCW until CCL marks are on depth. Example #2: If no CCL marks arefound, turn R3 clockwise. An oscilloscope across CCL/Fuse board P2 pin2 (signal) and 40 board TP1 (ground) will allow you to see the input signalas you make your adjustments.
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4.4 INTERNAL DATA RECORDER
This device records depth and tension data along with other job parameters onto a compact flash card.
4.4.1 DATA FORMAT
Data is stored as:DATE (yyyymmdd)TIME (hhmmss.ssUNITS (E=English, M=Metric)DIRECTION (U=Up, D=Down, S=Stopped)DEPTH nnnnn.nSPEED nnnn.nTENSION nnnnnn<CR> - CARRIAGE RETURN, <LF> - LINEFEED
See following example
20091202 151415.00 E S + 41.7 0.0 231720091202 151416.00 E S + 42.7 0.0 231720091202 151417.00 E S + 43.7 0.0 231720091202 151418.00 E S + 44.7 0.0 231720091202 151419.00 E S + 45.7 0.0 231720091202 151420.00 E S + 52.1 0.0 231720091202 151555.00 E S + 57.1 0.0 231720091202 151556.00 E S + 57.6 0.0 231720091202 151557.00 E S + 57.7 0.0 231720091202 151558.00 E S + 58.7 0.0 231720091202 151559.00 E S + 59.7 0.0 231720091202 151600.00 E S + 60.7 0.0 231720091202 151601.00 E S + 61.7 0.0 231720091202 151616.00 E S + 64.7 0.0 2317
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4.4.2 WELL NAME / UNIT NUMBER HEADER DATA
If a header containing information about the well, location, hoist unit number, etc. is desired on the file, connect a PC to the USB connector on the recorder face. When the directory is displayed right click the mouse and choose new file. Enter the data you wish and save the file as “unitdata.txt”. When the recorder board boots up it will look for the file “unitdata.txt” and put whatever is in the file in the new file that will record the data.
4.4.3 DATA RECORD
Data is written to the board 1 time per second. Data is stored in ASCII TEXT format. Each line terminates with CR and LF characters.To minimize the amount of data written to the board, the panel can be set (see 3.1) to write data only when depth is changed by more than 0.1' or when tension changes by more than 10 pounds. Interpolation can be used to fill in non written records since a DATE and TIME stamp is recorded as a part of each data record.
The panel can also be set to write data continuously so that no interpolation is necessary. This is recommend when if you want to correlate surface depth and tension readings with memory gauge readings.
The RECORD LED on the front of the DATA RECORDER board indicates that it is in RECORD mode.
The DATA LED flashes each time a data record is written.
Before removing the CompactFlash card, turn the panel power off. There is a delay when turning off the power while the data files are being closed. After a short delay, the panel will power itself off.
To continue recording on a new flash card, insert the card then turn the panel off then on. This will put the panel into record mode and write a new header file on the CompactFlash card.
New File – created or power upYYMMDDXX where XX=0 - 99
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4.4.4 DATA EXPORT
The memory board can be removed and data moved onto a PC using a standard CompactFlash Media Reader. The data can be imported into programs such as MS Excel or MS Access.
To remove the compact flash card, Press the release button to eject the flash card.
4.4.5 MEDIA CARD
The CompactFlash media device used in the data recorder may be ordered using part number AMS4P232. Additionally it may be acquired from any number of other retail sources. 2 GB is the minimum recommended size.
4.4.6 SETTING DATA RECORDER TIME AND DATE
To change the time and date connect a PC to the USB connector on the recorder face. When the directory is displayed right click the mouse and select the howtosettime file and follow the directions. Save the file as datetime.txt.
When everything is set up, turn the panel power off then back on.
At this time the system is ready to record data.
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4.5 RS232 SERIAL INTERFACE
To connect the panel to a computer, connect a serial cable from the PC to J6 on the rear of the panel. The wiring is as follows:
DB9 PIN OUT: 2 = TRANSMIT, 3 = RECEIVE, 5 = GROUND
Run a program such as MS Windows HyperTerm using the following parameters
BAUD 38,400BITS 8PARITY NSTOP 1HANDSHAKING NONE
Press H or ? to display the help screen * * * AMS46 Help Screen * * *
H,?- This screen. D - Display units, direction, depth, speed, and tension.
L - Modify load cell angle (factor) Usage: L1.2 P - Modify encoder pulses/revolution. Usage: P600
V - Verify WDDU setup status. W - Modify wheel size (line other) (feet) Usage: W4.0 Z - Preset depth.Usage: Z0.0 |_|--> New depth.
U - Modify units of measure UF(feet);UM(meters);UP(pounds);UK(kg) A - Depth Alarm. Usage: A100 |_|--> Depth Alarm. N - Line Size N0 7/32; N1 9/32; N2 5/16; N3 3/8;N4 7/16; N5 15/32; N6 15/32HT; N7 SLAM N8 SLAMHT; N9 SSLAM M - Tension Alarm. Usage: 'M2500' for 2500 pound alarm. J - Depth Adjust. Usage: 'J-1' for -1 ft per 1000 feet S - System PPF Usage: 'S125' for 125 PPFoot to system
AMS4A046 PANEL HAL OCT 2013 Page 28 of 44
Press V to display the Verification Screen
* * * AMS4A046 Setup Status * * *Software revision S4600.34
Line Size = slam Depth Units = Feet
Depth Units = Pounds Depth alarm = 100 ft Tension alarm = 2400 lbs Tension shutdown = 3500 lbs Encoder PPR = 1200 Depth Adjust = 0.0 Wheel Circumference = 2.000 feet Load Cell Angle Factor = 1.00 System Pulse per Foot = 600.0 Cable volume = 2118 cubic inches per 1000 feet Cable weight = 1.0
Press D to display the Data Screen
DATA STRING DESCRIPTION12345678901234567890123456U D Zddddd.d ssss.s tttttt<CR><LF>
WHERE:U – UNITS (Depth, Tension)
'E' - English, English, 'G' - English, Metric,'M' - Metric, Metric, 'F' - Metric, English
D - DIRECTION ('U' - UP; 'D' - DOWN; 'S' - STOPPED)Z - ZERO DEPTH REF. ('+' BELOW GROUND; '-' ABOVE GROUND)
d - DEPTHs - LINE SPEED
t - TENSION<CR> - CARRIAGE RETURN, <LF> - LINEFEED
AMS4A046 PANEL HAL OCT 2013 Page 29 of 44
4.6 SOFTWARE MODIFICATION USING THE SERIAL PORT
4.6.1 PREREQUISITES:
1. The real-time data acquisition board must have a socket for the MicroController and a CPU piggy-back PCB installed in that socket with a DS98C450 MicroController installed.
2. A computer with a serial port, and installed Hyperterminal program.
3. The new revision real-time data acquisition HEX file program.
4.6.2 PROCEDURE:
1. Transfer the new revision HEX file to the PC that will be connected to the Hoistmans panel.
2. Turn power on to the Hoistman’s panel.
3. Connect your PC to the serial port at the rear of the panel.
4. Open a Hyperterminal session. Use the following settings:
Serial Port: COM1 Baud Rate: 57600 Data Bits: 8 Parity: None Stop Bits: 1 Flow Control: None
5. Set the switches on the CPU PCB to PROGRAM mode as follows:
1. AWAY FROM CPU 2. AWAY FROM CPU 3. TOWARD CPU
6. Open the Hyperterminal connection and then press the keyboard ENTER key. The MicroController ROM Loader will respond with a banner and then a '>' prompt.
7. Type an uppercase 'K' and the ‘ENTER’ key and the ROM Loader will Klean-erase the Flash.
AMS4A046 PANEL HAL OCT 2013 Page 30 of 44
8. Type an uppercase 'L' and the ‘ENTER’ key and the ROM Loader will wait to Load a HEX file.
9. Pull down the Hyperterminal TRANSFER menu and choose: Send Text File. The file browser will open, so ensure that the file filter is set to:
Files of type - All files (*.*) and then go to the C:\ root directory and choose the new revision HEX file to transfer.
10. The ROM Loader will begin programming the Flash and will report a GOOD status for the duration of the programming procedure as follows:
GGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGGG
11. After the ROM Loader is finished programming the Flash set the switches on the CPU piggy-back PCB as follows:
1. TOWARD CPU 2. TOWARD CPU 3. AWAY FROM CPU
12. To operate from an EPROM instead of the Micro-Controllers internal memory, set the switches on the CPU piggy-back PCB as follows:
1. TOWARD CPU 2. TOWARD CPU 3. TOWARD CPU
AMS4A046 PANEL HAL OCT 2013 Page 31 of 44
5.0 SPARE PARTS LIST
AMS4A046 PANEL WINCH OPERATOR DISPLAY PANEL
ITEM SAP P/N P/N DESCRIPTION QTY REF
1 101370975 AMS4P134E PC BOARD AMS40 REV E
W/2xRS232 1 MOTHER BOARD
2 101370976 AMS4A104
METER ANALOG DIFF TENSION (+/- 1000 LBS)SHALLOW HOUSING
1 M1
3 101431832 AMS4P128 DISPLAY LED .5" SERIAL 2"X3.5" 4 D2, D3
4 101370978 ACMU1P06 LED RED DIALIGHT 5V 1 ALARM RESET
5 101370979 ACMU1P11 SONALERT #SC628D MALLORY 1 ALARM
6 101370984 AMS4P020 SWITCH MTL-106D ALCO
LOCKING 2 POWER ON/OFF
7 101370985 AMS4P018 SWITCH MPA-106F ALCO PUSH
MOM 5MENU, T-ZERO, T-
TEST, D-ZERO, METER RESET
8 101370986 AMS4P044 SWITCH TOGGLE DPDT MOM
OFF MOM 1 + / -
9 101370987 AMS4P021 SWITCH CAPS ALCO C-22
BLACK 3 T-ZERO, D-ZERO, METER RESET
10 101370988 AMS7P017 SWITCH CAP ALCO C-22 RED 1 D-ZERO, MENU
11 101371009 AMS4P171 CONN KPSE02E12-10S 1 J2 – LOAD PIN IN
12 101371010 AMS4P169 CONN KPSE02E12-3P 1 J9 – OVERTENSION
13 101371011 AMS4P179 CONN KPSE02E12-3S 1 J1 – POWER IN
14 101371012 AMS4P164 CONN DB9S 1 J6 – RS232
15 101371018 AMS4P172 CONN KPSE02E14-12S 1 J3/J5 ENCODER IN
16 101371013 AMS4P170 CONN KPSE02E12-10P 1 J4 – MMD
17 101371019 AMS4P264 CONN KPSE02E10-6S 1 J10 – MMD OUT
18 101371021 AMS4P270 CONN KPSE02E12-8P 1 J7 – ENCODER OUT
19 101371020 ALS1P029 CONN AMP BNC 31-221-RFX 1 J8 – TEN OUT
20 101371026 AMS4P041 SWITCH PUSHBUTTON
LIGHTED SPST 1 ALARM RESET
21 101371022 AMS4P042 LENS RED C&K SWITCH 1 RED LENS
22 101371027 AMS4P043 LED RED FOR C&K
PUSHBUTTON SW 1 RED LED
AMS4A046 PANEL HAL OCT 2013 Page 32 of 44
6.0 WIRING DIAGRAMS, SCHEMATICS AND SETUP PROCEDURES
6.1 REAR PANEL
J9-A 0-10V OUT (TENSION)J9-B ACMJ9-C Not ConnectedJ9-D Not ConnectedJ9-E SHIELDJ9-F PHASE 1B*J9-G PHASE 1B J9-H PHASE 1A*J9-J CONTACT CLOSURE N.O.J9-K PHASE 1AJ9-L CONTACT CLOSURE COM
AMS4A046 PANEL HAL OCT 2013 Page 33 of 44
6.3 COMPLETE WIRING LIST
P2 - Screw Terminal Block
P2 -1 BATT + P1 - 1 (FUSE BRD) SWITCHED POWER
P2 -2 BATT - J1 - B
P2 -3 CONTACT CLOSURE N.O.
P2 -4 CONTACT CLOSURE N.C. J9 - A Tension Contact Closure Back Panel
P2 -5 CONTACT CLOSURE COM J9 - B Tension Contact Closure Back Panel
P4 - USER SWITCHES
P4 - 2 DCM BLK One side of SW2, SW3, SW4, SW5A, SW6, SW7, SW8, SW9, ENGLISH LED-, SW 10
P4 - 6 ZERO DIFF. TENSION SW4 N.O. P4 - 7 TEN TEST SW5A N.O. SW 5 (DPDT)P4 - 8 ZERO CAL SW6 N.O.
P4 - 9 CANCEL DEPTH ALARM SW10 N.O
P4 - 10 ZERO DEPTH SW9 N.O. P4-11 DEPTH ADJ DOWN SW7 N.O. DN Dn Contact of SW7P4-12 DEPTH ADJ UP SW7 N.O. UP Up Contact of SW7
P5 - SPAREP5 - 1 +5V P1 - 2, P1- 6 ENCODER POWER TO FUSE BOARDP5 - 2 MENU SW8 MENU SELECTP5 - 3 DIFF / INC SW 3 P5 - 6 MMD RESET SW 2
P6 - ANALOG IN/OUTP6 - 3 LOAD PIN SIG+ J2 - A LOAD PIN SIG+P6 - 4 LOAD PIN SIG- J2 - E LOAD PIN SIG-P6 - 8 ACM J2 - B EXCITATION - (GROUND)P6 - 10 ACM J8 - GND TENSION COMMON (TO SYSTEM)P6 - 11 0-10V OUT (TENSION) J8 - CNTR TENSION OUT+ TO SYSTEM
P6 - 15 DIFF TENSION METER - M1 -
P6 - 16 DIFF TENSION METER + M1 +
P7 - COMMUNICATIONSP7 - 6 + 5 VDC D1 - 4 DISPLAY POWER
P7 - 7 COM2 TXD D1-5, D2-5, D3-5, D4-5
DISPLAY DATA - FOUR WIRES CONNECTED TOGETHER
P7 - 9 GND D1-1 DISPLAY GNDP7- 10 COM1 TXD J6 - 2 TXD OUT
AMS4A046 PANEL HAL OCT 2013 Page 40 of 44
P7 - 11 COM1 RXD J6 - 3RXD OUT
P7 - 12 GND J6 - 5 GND
P8 - QUADRATURE OUT / INDICATORSP8 - 1 METRIC LED - METRIC LED KATHODE (-)
P8 - 2 METRIC LED+ & 6.8VZKathode
METRIC LED+ & 6.8VZKathode
METRIC LED ANODE & 6.8VZKathode 6.8VZAnode to ENGLISH LED +
P8 - 5 EXCESSIVE TENSION ALM - ALM1 - Beeper
P8 - 6 EXCESSIVE TENSION ALM + ALM1 + Beeper
P8 - 9 APPROACHING SURFACE LED - SW 10 +1 (inline with silver plate)
P8 - 10 APPROACHING SURFACE LED + SW 10 -1 (opposite silver plate)
P8 - 11 PHASE 1B* J7 - D Quadrature Out - PHASE B*P8 - 12 PHASE 1B J7 - G Quadrature Out - PHASE BP8 - 13 PHASE 1A* J7 - C Quadrature Out - PHASE A*P8 - 14 DCM J7 - B Digital commonP8 - 16 PHASE 1A J7 - E Quadrature Out - PHASE A
P9 - ENCODER 1P9 - 1 DCM J3 - L Encoder GroundP9 - 5 12 VDC - TO FUSE P1 - 10 EXCITATIONP9 - 8 ENCODER 1B J3 - B Encoder inputP9 - 9 ENCODER 1B * J3 - E Encoder inputP9 - 11 ENCODER 1A J3 - A Encoder inputP9 - 12 ENCODER 1A* J3 - C Encoder input
P10 - ENCODER 2P10 - 1 DCM J5 - L Encoder GroundP10 - 5 12 VDC TO SW5 SW5B - NO SHUNT CALP10 - 8 ENCODER 2B J5- B Encoder inputP10 - 9 ENCODER 2B * J5 - E Encoder inputP10 - 11 ENCODER 2A J5 - A Encoder inputP10 - 12 ENCODER 2A* J5 - C Encoder input
P11 +/- 15 VDCP11-1 DIG GND J4 - F, J10 - F MMD POWER COMMONP11 - 8 MARK+ J4 - C, J10 - C MARK IN P11 - 9 MARK- J4 - D, J10 - D MARK IN P11-10 +15 VDC P1 - 3 MMD POWER + TO FUSE BOARDP11-11 CCL - P2-5 CCL FUSE BOARD P11-12 CCL + J4 - 4 CCL FUSE BOARD
D1 DISPLAY - MMD DEPTH
AMS4A046 PANEL HAL OCT 2013 Page 41 of 44
D1-2 GND D2 - 1GND OUT
D1-6 +5V OUT D2 - 4 POWER OUT
D2 DISPLAY - DEPTHD2-2 GND D3 - 1 GND OUTD2-6 +5V OUT D3 - 4 POWER OUT
D3 DISPLAY - LINE TENSIOND3-2 GND D4 - 1 GND OUTD3-6 +5V OUT D3 - 4 POWER OUT
J1 12V POWER IN J1-A 12V POWER IN SW1 NO 12V POWER TO PANEL
FUSE BOARD
P1 - 7 SW1 ON/OFF 12V BATT SW1 - NC SWITCHED POWER
P1 - 4 ENCODER1 PWR FUSED J3 - J
P1 - 8 ENCODER2 PWR FUSED J5 - J
P1 - 12 12 VDC POWER (FUSED)
J2 – C, SW5B-COMM
LOAD PIN EXCITATION, SHUNT CAL SWITCH
P1 - 5 MMD PWR (+15) FUSED J4 - E POWER TO MMD
P2 – 1 GND J4 – BP2 – 2 CCL IN J4 – G
P2 – 3 GND J4–F,J10-F, P11-1
P2 – 4 CCL OUT + P11-12P2 – 5 CCL OUT - P11-11
SWITCH 5 (DPDT PUSH BUTTON)SW 5B - NC
12 VDC POWER (FUSED) J2 – G SHUNT CAL (12 VDC)
AMS4A046 PANEL HAL OCT 2013 Page 42 of 44
6.4 FUSE BOARD AND POWER WIRING
AMS4A102
Refer to 6.3 for wirelist
6.5 ENCODER PULLUP BOARD
AMS4A046 PANEL HAL OCT 2013 Page 43 of 44
6.5 INTERNAL PROCESSOR BOARD SETUP
The software that runs this panel is run either out of the microprocessor memory or stored in an EPROM located as shown below. To update the software either load new software into the microprocessor (refer to section 6.8) or replace the EPROM with one containing the latest version of software. The current version at the writing of this document is 4600.34.
SPECIAL CONFIGURATION JUMPERS
AMS4A046 PANEL HAL OCT 2013 Page 44 of 44