argus manual

TsRKF 656437.019 OM. 1

BORETS COMPANY LLC

BORETS RESEARH & DEVELOPMENT CENTER

VARIABLE SPEED DRIVE CONTROLLER "ARGUS"

OPERATING MANUAL

2013

TsRKF 656437.019 OM. 2

The following abbreviations are used throughout the document:

AR - Automatic restart

SCADA - Automated control system

LAU - Lightning arrester unit

Commissioning - Commissioning

LCD - Liquid crystal display

UL - Trip on underload

OL - Overload protection

UFCC

LLC -

Universal frequency converter controller

(Low level controller)

ARGUS - Variable speed drive controller

Tubing - Tubing

FC - Frequency converter

motor - Induction motor

PMM - Permanent magnet motor

AOM - Alarm operation mode

VSD - Variable speed drive

SCADA - Upper level system

DHG - Telemetry system

Step-up

transformer - Step-up transformer

ESP system - Electric submersible pump system

OGPD - Oil and Gas Production Department

ESP - Electric submersible pump

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1.1 Controller's functions

VSD and motor operation modes control and protection functions are carried out by the software

of the variable speed drive ARGUS controller (ARGUS).

ARGUS controller is the upper level controller, it sets operation modes, carries out certain

protection functions, and provides interface with operator, LLC controller, integrated auxiliary equipment

and external automated control system (SCADA).

Detailed list of parameters, commands and settings, the structure of on-screen menu of the

ARGUS controller are described in Sections 2, 3, 4.

1.1.1 Motor operation control functions:

Controller provides:

- operation with induction and permanent magnet motor;

- motor switching on and tripping in manual control mode by the

operator or in automated control mode (including, using the program with preset motor

operation / shutdown time intervals);

- remote motor switching on and tripping on SCADA command;

- automated and manual control of motor speed using the ARGUS

keypad without tripping the VSD and remote control on SCADA commands;

- operation using the program with individually preset motor operation

and shutdown time intervals;

- automatic motor switching on with adjustable delay time when voltage

is supplied or when voltage is recovered in accordance with the standard;

- smooth acceleration and braking of motor with the set rate;

- acceleration with omission of resonant frequencies when changing

ESP system frequency (operation with the set minimum frequency and frequency hopping

bandwidth);

- changing of the motor rotation direction (reversal), also without VSD

tripping by smooth deceleration to zero and smooth acceleration up to the set frequency;

- motor braking with backspin with its further startup for direct rotation

(backspin picking up mode);

- automatic frequency shift at the output depending on the analog input

signal;

- automated maintaining of the set motor current value by changing the

output frequency with possibility of motor current control;

- automated current optimization when reaching the set frequency

(selection of optimum voltage after ESP system has reached the steady state mode);

- automated system unlocking mode using jogging mode ("heavy" and

reverse startup);

- system running up mode with heavy motor startup using jogging mode

with the set "jogging" frequency;

- "stirring" mode (to prevent depositions on pump stages);

1.1.2 Protective functions

1.1.2.1 motor tripping with automatic restarting (AR):

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- when underloading in-phase current component of any phase with

selection of the minimum phase current;

- when overloading any phase with selection of the maximum phase

current in accordance with the adjustable time-current characteristic via separate selection of the

desired current settings and overload time;

- when supply voltage is above or below the set values;

- when the selected motor current imbalance setting is exceeded;

- when the selected voltage imbalance setting is exceeded;

1.1.2.2 When variable speed drive is provided with surface telemetry units of the sensor system,

the controller shall support motor tripping with AR:

- on DHG signal indicating that the set motor temperature value is

exceeded;

- on DHG signal indicating that pump intake pressure is above or below

the set value;

- on DHG signal indicating that motor vibration acceleration is above

the set level;

- when communication with DHG is lost.

1.1.2.3 motor tripping and startup locking:

- in case of unauthorized access to the power box of the cabinet;

- on EXTERNAL LOCKING signal;

- on signal from contact pressure gauge;

- on reduction of insulation resistance of the Step-up transformercable

motor circuit below the set value (recommended 30 kOhm).

Note. ESP system may be allowed to operate with insulation resistance reduction below the

setting, provided that the response speed of the current overload protection trip is automatically increased.

1.1.2.4 motor startup locking:

- in case of voltage recovery with incorrect phase sequence;

- in case of backspinning with selection of the frequency exceeding the

allowable value.

1.1.2.5 Each protection is provided with:

- selection of active (ON) and inactive (OFF ) condition;

- adjustable delay time of protection activation after its operation;

- adjustable delay time for protection activation (except for low

insulation resistance protection, door opening protection);

- separately adjustable delay time for tripping immediately after startup

(except for low insulation resistance protection, door opening protection);

- selection of protection mode (except for protections for maximum

current load, low insulation resistance, contact pressure gauge) with restart (AR), and AR

locking or without AR;

1.1.2.6 AR function is provided with:

- selection of active (ON, LOCKED) and inactive (OFF ) condition;

- adjustable AR delay time;

- selection of restarts number;

- interlocking of AR when the set number of allowed restarts is

exceeded;

- manual unlocking of VSD tripping.

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1.1.2.7 Prevention of operation modes switching, protections switching on / off and changing of

settings without entering password.

1.1.3 Monitoring and information functions

1.1.3.1 Monitoring and display of current values of parameters and characteristics on ARGUS

display:

- supply voltages of three phases and their imbalance;

- currents of three motor phases and their imbalance;

- motor rotation speed;

- insulation resistance of the Step-up transformer submersible cable

motor circuit;

- heat sink temperature;

- phase sequence at the VSD input;

- phase sequence at the VSD output;

- current value of the power factor (cos );

- current value of actual motor load in per cent of active current rated

value;

- motor condition (on - off) using DHG;

- condition of the VSD with indication of the reason for this condition,

uptime from the moment of the last startup in hours and minutes or time remaining to the

startup in minutes and seconds, when operating in the automated control mode;

- operation of specific protections;

- opening of the power box doors (in case of unauthorized access);

- current date and time.

1.1.3.2 Monitoring and display of the preset and the current values of parameters on ARGUS

display in VSD, equipped with surface DHG units:

- motor winding temperature;

- formation temperature;

- pressure at the pump intake and discharge;

- motor vibration level at the axes and Y.

1.1.3.3 Monitoring and display on electric meter display and ARGUS display in VSD, provided

with electric meter:

- active energy in conducting direction with accrued total;

- reactive energy with accrued total;

- total energy in conducting direction with accrued total;

- instantaneous values:

linear voltage,

active power (total and of each phase),

reactive power (total and of each phase),

apparent power (total and of each phase),

power factor (total and of each phase),

Unified Power Quality Index;

- current time and current date (on electric meter display);

- daily and monthly maximum power;

- event log with daily (00-00 to 24-00) recording of power consumption

(active and apparent power) and uptime per day, registered by VSD controller and transmission

to the upper level.

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1.1.3.4 VSD controller provides display and chronological recording of 50000 last changes of

ESP system condition. In real time with adjustable time interval a recording is made in a memory unit,

containing information on motor switching on and tripping reasons:

- total ESP system run life;

- total number of ESP system starts;

- current date and time;

- parameter, which value entered the zone that triggered a protection

function;

- power up and power off time;

- current values of supply voltage;

- current values of motor current;

- current load values;

- current power factor values;

- pump system parameters (if sensor system is used);

- date and time, when setting was changes, number of the changed

setting, old and new value of changed setting.

Set operation parameters and accumulated information are stored, when no power is supplied.

1.1.3.5 Real time clock operate autonomously, when no external power supply source is

available, during 360 days, clock adjustment is provided, including remote adjustment using SCADA

command.

1.1.4 Information reading and transmission functions

- transmission of the set operation parameters, current and accumulated

information into the SCADA system using the RS-485 interface;

- transmission of accumulated information to PC via -port using

the RS-232 interface;

- transmission of accumulated information to the USB reader device, the

information can further be converted on PC into Microsoft Office Excel format using a USB

port.

1.1.5 Process parameters settings

- well number;

- well pad number;

- oil and gas field (OGF) number;

- ESP system running depth, m;

- Step-up transformer voltage, V;

- recording step, min;

- rotation speed measurement unit;

- current consumption of DHG, mA;

- VSD type;

- motor type;

- ESP system capacity, m3/day;

- ESP system head, m;

- DHG type;

- number, type, manufacturer, date of manufacture of ARGUS;

- number, type, manufacturer, date of manufacture of VSD;

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- feeder number.

1.1.6 Functions of intelligent control system

1.1.6.1 Automated startup of ESP system in accordance with the pre-set program, including

"sparing commissioning" with minimum possible pump flow rate, sufficient to cool the motor.

1.1.6.2 Mode for surveying / scanning of well inflow the mode for determining the maximum

possible well production rate at the current moment of time and adjustment of the ESP system for the

maximum production rate.

1.1.6.3 Efficient power consumption (automated optimization of power consumption) in all

operation modes.

1.1.6.4 Avoiding emergency operation modes of ESP system.

1.1.6.5 Pump operation on the boundary of pump underload (prevention of tripping due to pump

underload in terms of head, pump underload in terms of gas etc.);

1.1.6.6 Cyclic operation mode of the ESP system.

Automatic switching over from cyclic operation mode into continuous operation mode, provided that the

appropriate conditions for continuous operation mode are available.

2 Controller

2.1 General provisions

Variable speed drive controller (ARGUS) provides:

- implementation of various motor control algorithms;

- browsing of current values of operating parameters of motor and VSD;

- reprogramming of ARGUS and LLC without VSD tripping;

- reading of ESP system operation history.

In terms of design, ARGUS is a complete system, front panel of operator's interface is installed

on the VSD front door.

All information required for operator is shown on LCD display on the front panel in text format.

Data entry is carried out with keypad using menus.

ARGUS software allows using several types of menu, both those already used in serial VSD

manufactured by BORETS COMPANY, and other menus, made to specific customer's requirements.

ARGUS controller is used as standard. Other controller modifications may be manufactured,

provided that the software continuity is preserved. ARGUS controller description is provided in TsRKF

... Description of its front panel is given below.

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2.2 Front panel of ARGUS controller

Front panel of ARGUS controller is shown in Figure 1.

Figure 1 Front panel of ARGUS controller

The ARGUS controller front panel is provided with:

- four line liquid crystal display, 20 characters in each line, which displays information in text

format;

- ten digital buttons of membrane keypad ("0" "9");

- four keypad control buttons "ENTER", "CANCEL", "ALT", "HELP";

- LED display "ALT";

- two VSD control buttons "START", "STOP";

- LED indicator "PREHEATING";

- 15 pin connector "PORT", with two interfaces connected to it: RS232 and USB to connect with

SCADA system and reading of accumulated information from the controller.

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3 ARGUS controller menu Controller menu provides established operator's access to viewing equipment condition, setting

system operating modes, protection parameters. ARGUS software supports various types of menu,

meeting the specific requirements of the customers and allowing it use in serial VSD manufactured by

BORETS COMPANY.

All the messages related to ESP system operation are shown on LCD display in text format.

Information is displayed in 4 lines, hereinafter referred to as "window". All operations on data entry into

controller are carried out using its keypad.

Controller menu provides access to the parameters via multilevel structure of subfolders (as in

controller "Borets PMM"). Menu contains 15 items at the 1-st level, which may have nested menus of

the 2-nd, 3-rd and 4-th level. Menu structure is given in Table 3.1. The complete list of menu parameters

is given in Table 1 A (see Appendix A).

The columns of each of the tables of the list provides the following information:

- the list of parameters having the same designations, as they are shown on LCD display,

- parameter appearance (parameter, setting, command)

- measurement unit,

- explanation of abbreviations and brief description of the parameter,

- range of possible values,

- factory setting of the parameter's value,

- reference to a more detailed description of the parameter.

The "Reference" column of each of the table of the list provides reference to the comment clause

in Section 8 "Description of the displayed parameters and system operation modes"

The complete list of parameters, commands and settings, used in operation with submersible

system, there are parameters, applicable only for specific configuration and execution of the equipment,

depending on the type of VSD, LLC, motor, auxiliary equipment. Menu is made in a way that, when

entering specific equipment configuration, display shows the parameters, applicable only to the selected

configuration.

3.1 Controller menu

3.1.1 Menu structure

Menu structure is given in Table 3.1.

Table 3.1

Name of subfolders

Reference to

the parameters

list 9

Current parameters 9

Settings 9.1

Settings I 9.1.1

Settings U 9.1.2

Other settings 9.1.3

DHG settings 9.1.4

Analog inputs settings 9.1.5

REG settings 9.1.6

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External devices 9.2

Settings 9.3

Measurement units 0

Date and time 9.5

Configuration of VSD 0

Settings of motor 0

Settings of SS 0

VSD technical data sheet 0

DHG technical data sheet 0

SDHG 0

SurfDHG 0

DHG configuration 0

Commands 9.7

Change password 9.7.1

Calibration 9.8

SCADA 9.9

Language 0

LCD 0

Electric meter 9.12

Readings 0

Current day 0

Previous day 9.12.1.2

Current month 9.12.1.3

Previous month 9.12.1.4

Current year 9.12.1.5

Previous year 9.12.1.6

Total 9.12.1.7

Quadrants 0

Current day 0

Previous day 0

Current month 0

Previous month 0

Current year 0

Previous year 0

Total 0

Settings 9.12.3

Information 0

Parameters 9.12.5

Basic 0

Power 0

Other 0

Commissioning parameters 9.13

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Intelligence 9.14

Parameters 0

Commissioning Error!

Reference

source not

found.

Optimization 9.14.3

Gas lock 0

Pulses 0

Working submergence 0

Deposits Error!

Reference

source not

found.

Intelligence 0

Service 9.15

Variable speed drive 0

Settings 9.15.1.1

Coefficients 0

Analog inputs 0

Condition 9.15.1.2

Parameters 9.15.1.3

Motor 0

LL controller 0

Parameters 0

Condition 0

Autonomous operation 0

aut.op,min 0

DHG 0

Adjustment settings 0

Condition 0

Parameters 0

RS DHG 0

USB stick 9.16

Read history 0

ARGUS programming 0

FCC programming 0

Accept settings 0

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3.1.2 Buttons function in the menu

3.1.2.1 Buttons functions are changed depending on the type of operations with the menu. There

are four types of operations with the menu:

- viewing of lists of parameters, settings and system operation history;

- editing of settings;

- performance of commands from submenu "Commands";

- calibration of the insulation resistance measurement channel.

Buttons functions depending on the type of operations are given in Table 2.

Table 2

Button

Operation type

Viewing Editing Execution of

commands Calibration

09 Digit entry

Cursor movement

one line up

- Changing of parameters values.

- Changing of the current symbol to the

next value

Cursor movement

one line up

Cursor movement

one line down

Cursor movement

one line down

Moving to the

next window

Moving one character

to the right

Moving to the

next window

Moving to the

previous window


to the left

Moving to the

previous window

ENTER

Moving to the

next menu level

Exit from editing,

saving the entered

value

Execution of

command

Moving to the

next calibration

step

CANCEL

Moving to the

previous menu

level

Exit from editing,

without saving the

entered value

Moving to the

previous menu

level

Calibration exit

without saving

the results

Alt

Switching from the

digit entry mode to the

arrows navigation

mode

Help

Display of

parameter

reference

information for 2

seconds


to the left

START MOTOR STARTUP (if no wafer type switch is available)

STOP MOTOR SHUTDOWN (if no wafer type switch is available)

3.1.2.2 In "viewing" mode operator can view elements lists in menu windows. Use ENTER

button to switching from the last level viewing mode to editing of parameters and settings

3.1.2.3 Editing mode allows changing settings values within the given ranges. Switching to

editing mode is possible only after password entry, if the password was not cancelled. To cancel the

password, change the password to 0000. If the value of the entered setting is beyond the possible range,

then, while still in editing mode, operator is suggested possible limiting values.

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3.1.3 Entry into the 1 type menu

3.1.3.1 When powering the controller, its booting is started (it takes about 2 minutes), after that,

the main window is displayed on LCD.

The first three line of the main window display the parameters:

- "No., rpm" rotation speed;

- "I PMM, A" motor current;

- "R,kOhm" insulation resistance;

- the fourth line is the status bar.

Status bar displays current date and time or current condition (reason for drive start failure, if

yellow lamp is constantly on).

The main window is different from other menu windows, since it has additional indications on

the right side of the window.

Additional indications area may display the following information symbols.

3.1.3.2 Line "No., rpm" may display the following symbols: "", "", "~", "^".

Symbol "", "" indicates that the Step-up transformer voltage is not optimum. If the voltage is

higher, variable speed drive is running at the increased frequency converter current; if lower variable

speed drive can not reach the required rotation speed, due to undervoltage.

Symbol "~" indicates that variable speed drive is operating in motor acceleration or deceleration

mode.

Symbol "^" indicates that motor is running at increased speed to remove gas locks.

3.1.3.3 Line "IPMM, A" may display symbol "", which indicates undercurrent. This happens:

- when Step-up transformer transformer stage voltage is set high above the required value,

- when incorrectly selected configuration of the drive engineering package is lacking power for

the variable speed drive provide the required rotation speed of motor.

3.1.3.4 Line "R, kOhm" may display symbol "", appearance of which shows that insulation

resistance is below the set value.

3.1.3.5 The lower line may show the following symbols:

- "DHG" indicating that the variable speed drive operates with the telemetry system;

- "DOOR" indicating that the VSD door is open;

- "MAN","AUT","PRG" indicates VSD operation mode;

- "REL" indicates that independent automatic circuit breaker QF5 release has operated;

- ">>>" or "" indicates that the VSD is in standby mode for automatic startup;

- " ", " " or " !! " accordingly indicate that decrease of the rotation speed or sudden

decrease of the dynamic level of the formation fluid in the well in auto adaptation mode.

3.1.3.6 The list of the current parameters may be viewed in the main window.

3.1.3.7 Moving from the current parameters window to other menu windows is carried out by

pressing the "ENTER" button.

3.1.3.8 LCD displays only the information applicable to the selected equipment.

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4.2 Description of the displayed parameters and operation modes of the system

Detailed description of the parameters and operation modes of the submersible system, displayed

on the LCD of the ARGUS controller.

8.1 VSD equipment configuration

ARGUS software is designed for controller operation with various types of VSD, LLC and

motor.

During manufacturing or service maintenance of VSD, settings and technical data sheet

information is entered into its memory:

- type, manufacturer (manufacturer's code), serial number, date of manufacture of VSD; - type, manufacturer, serial number, date of manufacture of ARGUS; - type, manufacturer, serial number, date of manufacture of LLC;

Software data: version, LLC firmware installation date and version, generation date, date of

ARGUS "protection" firmware installation in the appropriate software, this information is shown on

display as parameters.

When preparing the system for start, settings applicable to the specific configuration of the

equipment is entered into ARGUS and LLC.

8.1.1 VSD type is selected from the list:

Borets VD80 Borets VD500 Borets VD105

Borets VD40 Borets VD160 Borets15-400

Borets VD250 Borets VD300

Borets VD50

8.1.2 LLC type is selected from the list:

- Direct start - FC FCC controller or UFCC - Drivers controller - Rockwell - Smooth start

8.1.3 motor type is selected from the list, which is determined by the selected VSD:

Borets VD40 Borets VD50 Borets VD80 Borets VD250

1VEDBT-117 1VEDBT-117 1VEDBT-117 1VEDBT-117


11VEDBT-103

11VEDBT-103

11VEDBT-103

2VEDBT-117

11VEDBT-130

11VEDBT-130

11VEDBT-130

11VEDBT-103

PVEDN-1170 PVEDN-1170 PVEDN-1170 11VEDBT-130

5VEDBT-117 5VEDBT-117 5VEDBT-117 PVEDN-1170

12VEDBT-117

12VEDBT-117

12VEDBT-117

5VEDBT-117

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12VEDBT-117

Borets VD105 Borets VD160 Borets VD300 Borets VD500



11VEDBT-103

11VEDBT-103

11VEDBT-103

11VEDBT-103

11VEDBT-130

11VEDBT-130

11VEDBT-130

11VEDBT-130

PVEDN-117 PVEDN-117 PVEDN-117 PVEDN-1170


12VEDBT-117

12VEDBT-117

12VEDBT-117

12VEDBT-117

Borets15-400

motor

The following motor technical data sheet settings are entered while preparing for startup:

- type; - nominal power, nominal power factor (for induction motor only); - nominal current, nominal voltage, idle current.

8.1.4 DHG type is selected from the list:

DHG - none DHG SKAD DHG Elekton-3

DHG SPT-2 DHG BST5 DHG TT37

DHG SPT-1 DHG SPT1_25

DHG Elekton DHG ViewPoint

DHG BST1 DHG Novomet

DHG Weatherford DHG IR-2

Name plate data about manufacturer, date of manufacture, serial numbers of surface and

submersible parts of DHG, sensors configurations, and technical data and data on design features and

version of "protection" software in DHG software, these data may be shown on the display as parameters

in accordance with the selected DHG type. These data are given in sufficient detail in the menu tables

(see Appendix A and B).

8.2 Mains parameters

Description of parameters and related settings is given below

8.2.1 Input voltage.

Current value of the input voltage is changed in UFCC, transmitted via internal interface into

ARGUS and shown on display as an average three phase linear voltage value Umains

=(Uab+Ubc+Uac)/3.

Mains voltage and frequency are selectable.

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UFCC contains the parameters, and the following protection settings are entered to provide

operation of protection functions depending on the mains voltage:

- selection of the mains voltage and frequency 380 V /50 Hz or 480 V /60 Hz - hardware protection on exceeding the maximum linear voltage

Umains max=542 V,

- protection on exceeding the threshold 25% from the nominal value, - protection on reduction by more than 25% from the nominal value, - protection with variable threshold within 15% from the nominal.

The following can also be entered:

- protection operation mode, - delay time of switching on / tripping of the VSD after operation of protection, after startup or in

case of alternative automatic restarting after power loss,

- compensation factors of the measured voltage, (in UFCC correction is not provided, since precision is ensured by hardware).

8.2.2 Input voltage imbalance.

The following are entered as settings:

- threshold value of imbalance in % from the nominal voltage, - operation mode of protection on exceeding the threshold, - switching on / tripping time after operation of protection.

8.2.3 Phase sequence of mains voltage

Monitoring of phase sequence is carried out in ARGUS using the signals from the phase

sequence indication unit PSIU. Information about this parameter is relevant for VSD with smooth starter,

during startup after maintenance and repair work

8.2.4 Power consumption

VSD versions, equipped with standard electric meters, all the mains parameters, including:

- active power consumption, - power consumption, - power factor

are transmitted from the meter to the ARGUS using internal interface RS485

Meter type is selected from the list:

SET Merkuriy Energomera

8.3 VSD output voltage

Current value of the output voltage is measured in UFCC and shown on the display.

8.3.1 Procedure for VSD output voltage generation

The procedure is selected in ARGUS menu, depending on the selected types of motor, VSD and

LLC, from the following:

- "6 step" commutation producing trapezoidal form of output voltage. The procedure is implemented in PMM VSD with UFCC. Adjustment of output voltage to control permanent magnet motor is

carried out by PWM converter under control of UFCC in accordance with the voltage in DC buses or output

current (depending on the setting or by automatic selection).

- "Sine" and "Sine+" modulation of output voltage. The procedure is implemented in PMM VSD with UFCC. Adjustment of output voltage to control induction motor is carried out by PWM converter the

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same as in 6-clock commutation. Software used for this procedure carries out continuous harmonic analysis

of the output current (1, 5 and 7 harmonics), which is used to calculate motor consumption parameters.

- "Sine PWM" modulation of output voltage. Implemented in PWM VSD with UFCC with built in output filter (VSD Borets-15-400). Adjustment of induction motor speed is carried out using output voltage

or current.

8.3.2 Current value of the output linear voltage

8.3.2.1 In PMM VSD with UFCC with "6 step" commutation is calculated using the formula:

Uuv=Uvw=Uwu=Udc*0.74,

where: - Udc average voltage in the VSD direct current bus for the period,

- 0.74 factor of the form of the linear output voltage.

8.3.2.2 With "Sine" and "Sine+" commutation, the DC bus voltage is measured. Using the value

measured during the period in 128 points, and the known PWM modulation factor, output voltage is

calculated for the given point.

8.3.2.3 With "Sine PWM" modulation, output voltage is calculated using the DC bus voltage

with frequency of 45-50 kHz with account of the current PWM conversion factor.

8.3.3 Output voltage protection settings:

- linear output voltages Uuv,Uvw,Uwu; - hardware protection on exceeding voltage in DC buses Umax.dc=765 V, is implemented in

UFCC.

8.3.4 Output voltage imbalance

The menu has the following settings

- Selection of the operation mode for the output voltage imbalance protection, - output voltage imbalance protection threshold in % from the nominal value, - tripping and AR delay time in case of output voltage imbalance.

8.4 Output current

Current value of the VSD output current is measured in UFCC and shown on the display.

Output current is measured using the signals from the current sensors, installed on the direct

current bus and output buses.

8.4.1 Current value of the output current

8.4.1.1 In PMM VSD with UFCC with "6 clock" commutation is calculated using the formula:

Iu=Iv=Iw=Idc*0.816,

where: Idc current amplitude in the direct current loop, averaged for the commutation time of the

measured current,

0.816 factor of the output current form.

8.4.1.2 With "Sine" and "Sine+" commutation, the current value of the output current is

calculated using the formula:

Iout=Iu (v,w)=SUM(In2/N)

where: In instantaneous current,

N=256 number of measurements per period.

8.4.1.3 With "Sine PWM" modulation, the calculations are made using the formula in 0, with

measurement rate of instantaneous output current of 45-50 kHz.

8.4.2 Output current protection settings

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- Hardware protection from exceeding the maximum allowed value of output phase current. Protection operates with Imax =(1,2 - 1,7) I nom, depending on VSD power.

8.5 VSD output power

VSD output power is calculated using the formula:

out = 3*Uuv (vw, wu)*Iu (v,w)

where: - Uuv (vw, wu) current value of the linear output voltage (8.3)

- Iu (v,w) current value of output current (8.4),

8.6 Step-up transformer parameters

Menu contains the settings, corresponding to the technical data sheet value of Step-up

transformer parameters:

- apparent nominal power of Step-up transformer. - Step-up transformer primary voltage,

and:

- Step-up transformer secondary winding tap voltage, which is calculated or selected from the table with account of the cable length and nominal parameters of motor: voltage, current, power (Appendix B)

8.7 Cable parameters

8.7.1 Cable insulation resistance

In the menu, the current parameters display the cable insulation resistance value Rins., which

can be measured by VSD using two methods: VSD hardware or DHG equipment.

8.7.2 Cable insulation resistance protection

Condition menu displays the following Rins. protection functions:

- reduction of Rins. down to minimum allowable value Rins. min=20-35 kOhm, - no calibration is carried out for the insulation resistance measurement channel in ARGUS, - failure of the current sensor Rins. in the submersible DHG unit.

8.8 motor parameters

8.8.1 motor phase current

The displayed motor phase current is calculated using the following formula:

Imot = Iout / avot

where: Iout- VSD output current,

avot = U2avot / U1avot multiplying transformation ratio of Step-up transformer.

where: U1avot, U2avot voltages of the primary and the secondary Step-up transformer

windings, correspondingly

With "Sine" and "Sine +" commutation, Imot calculation accounts for losses in Step-up

transformer and cable, which are calculated by the software on the basis of the corresponding technical

data sheet data.

Compensation factors settings for the measured voltage, (in UFCC correction is not provided,

since precision is ensured by hardware).

8.8.2 Motor current protection settings:

TsRKF 656437.019 OM. 21

The menu provides for two types of motor current protections, which cause equipment

breakdown: overload protection (OL) and underload protection (trip on underload UL). In case of motor

overload, motor current exceed the maximum nominal current, which causes overheating of winding. In

case of underload, motor current is below the nominal value, pump stops pumping the fluid, motor and

pump are not cooled, which may lead to motor overheating, burning of cable, motor seal failure.

The following settings are made for operation of the protection functions:

- selection of the protection operation mode in case of overload (underload); - motor current value, determining the protection threshold, in % from the nominal current; - tripping delay time at overload (underload); - tripping delay time at overload (underload) after startup; - AR delay time at overload (underload); - number of AR on OL and UL.

8.8.3 Motor currents imbalance

The following protection settings are available in the menu:

- motor current imbalance protection threshold in % from the nominal value, - selection of the operation mode for the motor current imbalance protection; - imbalance trip delay time; - imbalance trip delay time after startup; - AR delay time with motor current imbalance;

8.8.4 motor operation modes

Motor control in steady state mode implies maintenance of the set motor rotation speed No. rpm.

Current value No. rpm is displayed

The menu provides entry of the following rpm settings:

- rotation speed setting number of rpm in the steady state mode, - acceleration time time required for motor to reach the set values of steady state mode, - Initial acceleration speed speed setting for normal acceleration, which is the starting point for

reaching the steady state mode.

- rotation direction symbol on display indicates the current forward or inverse phase sequence of the output voltage, which may be changed.

8.8.5 motor load

Motor "Load" parameters is displayed in the current mode and is calculated using the following

formulae,

8.8.5.1 In permanent magnet motor cos is taken equal to 1 and

PMM load =(Imot / Imot.nom)*100 [%]

where: Imot.nom. motor nominal current is entered using the setting from the technical data sheet

(8.1.3),

Imot. current value of the motor phase current (8.8).

8.8.5.2 When controlling induction motor using "Sine" and "Sine +" procedures and "Sine

PWM" modulation, load is calculated using the formula:

motor load =(Imot* cos mot / Imot.nom* cos nom)*100 [%]

where: cos nom =0.98 for motor nominal current.

Imot with "Sine" and "Sine+", the current value is calculated with account of the 5th and the 7th

harmonics, cos mot is calculated using the 1-st harmonics.

TsRKF 656437.019 OM. 22

With "Sine PWM" modulation in PWM VSD with output filter, harmonic current components

are negligible and are not accounted for

8.8.5.3 In idle mode, load is determined as:

Load min=(1.3*I*0.35/ Imot.nom)*100 [%]

where: I motor idle current,

1.3 factor, accounting for minimum mechanical load on motor shaft,

0.35 cos with minimum mechanical load on motor shaft,

8.9 Energy consumption parameters with load applied

The following parameters are displayed:

act.cons.=3*Iout*Uout*cos active power consumption,

Fp= Imot 1 / Imot power factor,

cons.=act.cons.* consumed active energy.

where: out vsd

Table 8.1 contains formulae for the implemented output voltage generation procedures

Table 8.1. Formulae for calculation of energy parameters of ESP system

Commutation method act.cons. Fp cons.

"6 step"

(PMM VSD, PMM

motor)

3*Iout*Uout

close to 1 act.cons.*

"Sine" and "Sine+" 3*Iout*Uout*cos Imot1 / Iout

"Sine PWM" cos

where: Iout,Uout see 8.3, 8.4,

Imot1 -1-st current harmonic,

8.10 DHG parameters

8.10.1 Information

The menu contains the following information:

- DHG condition: "DHG failure" - SDHG technical data sheet, containing the information about the submersible unit - SurfDHG technical data sheet, containing information about the surface unit - DHG configuration, displaying TSM sensors configuration

8.10.2 Current parameters

The menu displays the following current parameters of DHG operation:

- pressure at pump intake and discharge - vibration in three space axes - temperature at pump intake and discharge - motor winding temperature.

8.10.3 DHG protection settings

The following protection settings are entered in the menu:

- selection of the protection operation mode (on|off); - protection on maximum and minimum pressure at the pump intake - protection on motor maximum winding temperature

TsRKF 656437.019 OM. 23

- protection on minimum insulation resistance in the cable - delay time for tripping on operation of protection for allowable pressure, motor temperature,

vibration,

- delay time for AR on low pressure, motor winding temperature, allowable vibration.

8.11 Adjustment settings

Provisions are made for entry of settings, adjusting allowable changes of parameters when

controlling the production process:

- deviation of pressure from the set value - rpm increase, when adjusting rotation speed - time interval of adjustment - pressure change rate when performing pressure adjustment

8.12 SCADA settings

The following settings are made in the menu:

- SCADA type from the list, suggested in the menu: 1. No SCADA

2. SCADA Surgut NG N3

3. SCADA Region - 2000

4. GPRS modem

5. SCADA MODBUS2

6. SCADA MODBUS3

7. SCADA Lukoil-3S

- SCADA address in the telemetry system - data exchange rate 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 - switching on of recording in SCADA

8.13 Service settings

Service settings include the settings providing convenient operator's interface environment:

- setting of the display parameters input language, brightness, contrast, - selection of units for parameters display pressure, frequency, temperature - selection of the menu type, - calibration corrections

8.14 Additional inputs

When using additional analog inputs, the following settings are made in the menu:

- protections operation modes on signals from analog inputs, - delay time for protective trips and AR - maximum and minimum protection levels, - maximum and minimum physical signal levels for automatic setting of the appropriate

measurement range,

8.15 Operating technical data sheet

Technical data sheet data for the well pad, well, cable for identification of information, read

from ARGUS (see cl. 9)

8.16 VSD operation time counters

This group includes displayed information parameters indicating continuous operation of the

system: number of VSD trips on protection operation, number of starts, total operating time and idle time.

TsRKF 656437.019 OM. 24

8.17 Operating modes

The settings for the following operating modes are entered in the ARGUS menu: "Startup",

"Shutdown", "Acceleration and braking", "Jogging mode", "Startup with backspin", "Gas locks

removal", "Stirring", "Maintenance of one of the set parameters", "Intelligent mode".

8.17.1 Startup

Operator's actions to startup the system are allowed only after the VSD and the controllers have

reached the allowable temperature range (see cl.). The next step is selection of the menu type and entry

of the settings required for the startup and normal operation in manual, automatic or program mode.

Availability of settings depends on the selected equipment type.

8.17.1.1 The algorithm for PMM startup by PMM VSD with "6 step" commutation is as follows.

On STARTUP command, the PMM rotation condition diagnostics is carried out. If PMM is

rotating in the direction reverse to the set direction, with the speed, exceeding the allowable for startup

with backspin, it is prohibited to carry out the startup.

If PMM is at a standstill, which is indicated by static condition of comparator unit of UFCC,

which are used to determine the condition of PMM rotor rotation, voltage is generated at the VSD

output, which with the set rate creates rotating magnetic field in the PMM (six positions per period) and

the torque with the set current. PMM rotor is started from the initial position and accelerates to the set

rotation speed

If PMM did not start rotating during the time, set by the time current characteristic, which is

possible at increased load, then the current is automatically, in 3-4 stages, increased until PMM starts

rotating. Threshold value is limited with maximum current hardware protection, operation of which

disables the startup mode.

8.17.1.2 Induction motor startup algorithm with "Sine" and "Sine +" commutation is as follows.

Starting torque of motor with this commutation type (PMM VSD, UFCC) is set by the initial

voltage setting, which is changed by voltage / rotation speed ratio, and starting current. Current increase

is monitored and limited in the same way as it is done for VSD startup.

8.17.1.3 Induction motor startup algorithm with "Sine PWM" commutation is similar to that

described for "Sine" and "Sine+" with the difference that, total acceleration time and maximum jamming

time at the startup are set.

8.17.2 Jogging mode

Motor jogging startup mode (or "Unlock" mode for PMM) is used when the system is jammed.

In this mode the startup is carried out by programmed reversing of rotation direction with the set torque.

The following settings are made: jogging mode time, number of jogs, current protection values,

phase sequence, parameters, setting the maximum jog current values. With "Sine PWM" commutation,

the values of the prohibited frequency range are additionally entered.

8.17.3 Acceleration and braking

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To change the current rotation speed, operator enters new speed setting value and time for

reaching the new value. VSD uses the entered value to generate time distributed sequence of rotation

speed settings for LLC controller and monitors their observance.

8.17.4 Startup with backspin

Motor backspin may occur, when operating ESP system is tripped. Startup from the backspin

condition is carried out when reverse rotation speed is decreased to the set minimum. This condition may

arise either with complete draining of the fluid column above the pump or by braking motor backspin.

PMM and motor braking techniques are different.

PMM VSD when braking PMM, the energy generated by PMM is dissipated either in the

connected braking resistors unit (in PMM VSD for cavity pumps) or in submersible cable (in PMM VSD

for ESP pumps). The latter is implemented by short circuiting output phases of VSD using frequency

converter keys. Monitoring of the startup condition occurrence is carried out by rotation speed or output

current, accordingly. When startup conditions occurs, frequency and phase synchronization of the motor

rotation speeds and commutation of output phases is carried out, the startup mode is then switched on.

The settings specify the mode and the values of the rotation speed and startup current with backspin.

With motor backspin, no energy is produced, and braking is carried out in rotation speed pickup

mode with further switching over to the normal mode. The settings specify the mode and the values of

the startup rotation speed with backspin.

8.17.5 Gas locks removal

When enabling UL protection (trip on underload), motor rotation speed increases by the set

value and is maintained during the specified time. If during this time, UL condition persist, increased

rpm remain constant, until UL protection operates. If UL conditions no longer exist, rpm is reduced to

the initial value.

The following settings are made for the mode:

- Enabling of the mode, - rotation speed change value, - gas lock removal time

8.17.6 Shaking

"Shaking" mode is used to clean the motor from deposits by sudden decrease of its rotation

speed with further recovery of the rotation speed. The following settings are made for the mode:

- Enabling of the mode, - shaking intervals, - number of shakes, - two values of rotation speed change (can not exceed the value, specified by the setting) and the

appropriate rates of the change.

8.17.7 Maintenance of one of the parameters

In this mode, the setting allows selecting one of the parameters, which is used for automatic

control of:

TsRKF 656437.019 OM. 26

- rotation speed, - pump intake pressure, - motor current, - in intelligent control mode.

In rotation speed maintenance mode, automatic adjustment of output current and voltage of VSD

are carried out, the current value of which is measured by LLC.

In current maintenance mode, when it is increased or decreased due to load variations, motor

rpm are automatically, accordingly, decreased or increased until the current reaches the set value. When

this value is reached, motor returns to the reached speed. If rotation speed has reached the maximum,

specified by the setting, and the current did not increase to the setting value, UL protection is triggered.

Minimum rotation speed is set in pressure maintenance mode.

Intellectual control mode implies entry of the settings for factors for static and dynamic

parameter deviations during control, which are selected by operator or automatically per the specified

criteria: prevention of underload, head maintenance, optimum power consumption, allowable load on

motor etc. Changing of factors settings may be carried out without VSD tripping.

Maintenance of the selected parameter is interrupted when acceleration and braking mode is

enabled, or gas locks removal mode is required, until operation in these modes is completed.

8.18 Protection settings

The menu provides two types of protection operation modes settings: "On/Off" and

"Off/Lock/AR", where:

- Off protection disabled, - On" protection enabled, - AR protection enabled with restart of VSD specified number of times (from 1 to 5) after

protection operation,

- Lock interlocking of restart for protection functions, supporting AR mode. If protection is enabled, after its operation (with AR operation after the last startup) VSD

startup is interlocked and in order to restart it, "Unlocking" command need to be entered.

8.19 Commands

"Test" command, the command allows testing indicator lamps and fan operation. When it is

executed:

- the controller successively displays indication symbols, - fan is switched on, - green, red and yellow lamps are successively switched on on the door.

The test ends in a minute after it was started or by pressing the "Cancel" button.

8.20 Event log (history)

When this menu is selected, VSD operation events history may be viewed on the display.

History limits are marked by the words: "Beginning of the history", "End of the history".

8.21 USB stick

This menu allows selecting commands for the operations with the USB stick.

- Read history event log history is read.

TsRKF 656437.019 OM. 27

- ARGUS programming, FCC programming using USB stick are selected to install ARGUS or FCC firmware version, accordingly.

- Accept settings settings are read from the USB stick

8.22 Condition of equipment

Menu Condition of VSD, ARGUS, DHG contains the list of protections against electrical

parameters exceeding the allowable limits (including those caused by the equipment malfunction).

However, there are protections, which are related only to the units and elements, included in the VSD.

This clause provides description of these protections, shown on the display. Possible protections

operation reasons are provided.

8.22.1 "Ipwm sens. fail." failure of PWM current sensor. PWM modulation circuit is used to

change output voltage in PMM VSD. A current sensor is used in this circuit, readings of which are used

for adjustments. Protection operates when the sensor, its power circuits are faulty or sensor's signal path is

damaged.

8.22.2 "THYR protection" failure of thyristors of power rectifier, TCB board, TCB power

circuit. At that, if any thyristor module is not switched on when control command is sent, the appropriate

LED indicator lights up on the TCB board.

8.22.3 "SWB protection" failure of IGBT modules in the switchboard, PdRK driver board,

short circuit of the switchboard power circuit. In case of short circuit in the power circuit or overload on

PdRK board, the appropriate LED indicator lights up.

8.22.4 "I GND Protection" operates when the difference between the VSD output currents

exceeds 10% from the nominal current I nom. Protection operates in case of failure of any current sensors

in output circuits of VSD, their power circuits, ground fault of any of the VSD output phases.

8.22.5 "Overheat" protection operates, when the frequency converter heat sink temperature

exceeds 95 according to the measurements of at least one of the two temperature sensors installed on the

heat sink.

8.22.6 "Temp. sens. 1 failure", "Temp. sens. 2 failure" multiple failure of temperature

sensor 1 or 2, accordingly, of power circuits and signals paths of these sensors.

8.22.7 "H. brige failure" failure of IGBT module in switchboard or short circuit in the

switchboard power circuits. Registered, when "SWB protection" signal recurs (8.22.1)

8.22.8 "Choke failure" short circuit of choke coil in PWM circuit, choke inductance loss,

failure of UFCC board, Measuring resistors board in PMM VSD.

8.22.9 "Phase break" main voltage phase break. Main voltage is measured by UFCC

controller.

8.22.10 "No protocol" no record of VSD parameters measurement is kept. Appears in case of

record ROM failure in UFCC.

8.22.11 "Comp. conf.error" FCC comparator unit condition failure. Appears during

automatic testing of VSD before startup due to UFCC failure or when mains voltage range is exceeded.

8.22.12 "motor conn. err." the output current value at VSD startup is not increased,

approaches zero in the current parameters of current value. It means that load (motor) is not connected.

8.22.13 "Rins. sens. failure" failure of insulation resistance measurement channel.

Determined in VSD, if insulation resistance between any of the output phases and cable sheath is below

the acceptable value (35 kOhm).

TsRKF 656437.019 OM. 28

8.22.14 "Rins. cal. fail." VSD insulation resistance measurement channel was not calibrated.

8.22.15 "Dig. FCC failure" failure of digital analog section of FCC controllers. Occurs when

UFCC board is faulty, when digital devices on the board do not respond when they are addressed via

internal I2C interface.

8.22.16 "Analog FCC failure" failure of analog paths for normalization and conversion in

UFCC board.

8.22.17 "I2Cpot failure" no communication via I2C line in UFCC board with any of the

integrated circuits of digital potentiometers.

8.22.18 "FCC fault" restarting of FCC processors with 40 seconds interval, without

determining its cause.

8.22.19 "FC RS timeout" timeout on exchange line LLC and ARGUS longer than 8 minutes

(PMM VSD and longer than 15 min in series 15 VSD)

8.22.20 "LLC failure" fault in exchange between ARGUS and LLC in series 15 VSD.

8.22.21 "Rect. RS failure" fault in exchange between ARGUS and SCADA.

8.22.22 "WAFF failure" failure of VSD operation modes waffer type switch on the front

door.

8.22.23 "LCD failure" failure of ARGUS liquid crystal display. Occurs when connection with

the LCD driver is lost.

TsRKF 656437.019 OM. 29

9 Menu parameters list Table 9.1 contains the menu parameters list. Parameters format in column Menu item short name corresponds to that of LCD display; the number

of symbols preceding the name stands for the number of jumps to the next menu level (from 1 to 4) before opening the list of parameters, settings and

commands; symbol * is related to the protection setting with an option to select an operation mode (Off/Interlock/AR), and the settings given below in

the list (up to the next asterisk) enable setting of the protection.

Table 9.1.

Menu item short name Parameter Measure

ment unit Menu item full name

Minimum

value

Maximum

value

Factory

setting Reference

9 0

Speed Parameter Rpm/H

z motor rotation speed 0 65535 0

Nturb.,rpm Parameter rpm motor backspin speed 0 3500 0

Rins.,kOhm Parameter kOhm Insulation resistance 0 65535 9999

Imotor, Parameter A motor current 0 150 0

Date Parameter Current date 01.01.2001 01.01.2001 01.01.2001

U in,V Parameter V Linear network voltage 0 480 380

Mode end time, min Parameter min Mode end time 0 65535 0

Number of starts Parameter Number of starts 0 65535 0

Load, % Parameter % motor load 0 65535 0

P,kW Parameter kW Power consumption 0 65535 0 8.2.4

motor run life, h Parameter h motor run life 0 65535 0

W,MW`h Parameter MWh Power consumption 0 65535 0

Software version Parameter ARGUS software version 1 99,99 1407

Ainp.1 Parameter V Analog input 1 voltage 0 10 0

Ainp.2 Parameter V Analog input 2 voltage 0 10 0

I imbal., % Parameter % Current imbalance 0 100 0

Uin. imbal., % Parameter % Network voltage imbalance 0 100 0

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Uout. imbal., % Parameter % Output voltage imbalance 0 100 0

UL number Parameter Number of UL shutdown time intervals 0 65535 0

OL number Parameter Number of OL shutdown time intervals 0 65535 0

Misc. protections number Parameter Number of miscellaneous protections shutdown time

intervals 0 65535 0

Startup run life, min Parameter min motor run life after the last startup 0 600000 0

VSD run life, h Parameter h motor idle time 0 65535 0

Ileak,mA Parameter mA Current leakage 0 99,999 0

SS version Parameter SS version 0 65535 0

ESP, m3/day Parameter m

3/day ESP system capacity 0 65535 0

os Parameter os 0 0.999 0.98

Pi,atm Parameter atm Pump intake pressure 0 1000 0

Pd.,atm Parameter atm Pump discharge pressure 0 999.99 0

Tm,C Parameter C motor temperature -300 300 0

Td, Parameter Pump discharge fluid temperature -32768 32768 0

oil, Parameter Oil temperature -80 32000 0

Ti, Parameter Pump intake fluid temperature -80 300 0

Vibr. X,g Parameter g Vibration along axis X 0 99.99 0

Vibr. XY,g Parameter g Root-mean-square vibration along axes X and Y 0 99.99 0

Vibr. Y,g Parameter g Vibration along axis Y 0 99.99 0

Vibr. Z,g Parameter g Vibration along axis Z 0 99.99 0

Phase seq. Parameter Phase sequence /

9.1 1

9.1.1 1.1

*OL Setting motor overload protection Off/Interlock/AR AR

I OL, A Setting motor overload current 0 9999

OL dl.t.trip,s Setting A motor overload delay time for tripping 0 120 20

AR dl.t. OL, min Setting s motor overload AR delay time 0 3000 5

OL AR number Setting min Number of OL AR 1 3000 5

*UL Setting motor underloading protection switching on Off/Interlock/AR Off

I UL, A Setting motor underloading motor current 0 9999

TsRKF 656437.019 OM. 31

UL dl.t.trip,s Setting A motor underloading delay time for tripping 0 600 40

AR dl.t. UL, min Setting s motor underloading AR delay time 0 3000 60

UL AR number Setting min Number of UL AR 1 21 3

*I imbal.pr. Setting Current imbalance protection Off/Interlock/AR AR

I imbal.,% Setting Current imbalance 0 25 25

I imbal.dl.t.trip, s Setting s Current imbalance delay time for tripping 0 60 5

I imbal.AR dl.t., min Setting min Current imbalance AR delay time 0 300 5

I imbal.dl.t., s Setting s

Current imbalance delay time for tripping after

motor start 0 3600 15

OL dl.t., s Setting s Overload delay time for tripping after motor start 0 3600 5

UL dl.t., s Setting s

Underloading delay time for tripping after motor

start 0 3600 5

*GasLck removal Setting Gas locks removal mode Off/On Off

dNgas,rpm Setting rpm motor rotation speed change value 50 500 100

Ngas dl.t.,s Setting s motor high rotation speed keeping delay time 1 600 5

9.1.2 1.2

Umax dl.t.,s Setting s Umax protection delay time for tripping after start 0 3600 5

*Umin prot. Setting Protection switching on at low network voltage Off/Interlock/AR AR

Umin,% Setting % Minimum network voltage 0 100 75

Umin dl.t.trip,s Setting s Umin protection delay time for tripping 0 60 5

*Umax prot. Setting Protection switching on at high network voltage Off/Interlock/AR AR

Umax, % Setting % Maximum network voltage 100 125 110

Umax dl.t.trip,s Setting s Umax protection delay time for tripping 0 60 5

*Uinp. imbal. prot. Setting Network voltage imbalance protection Off/Interlock/AR AR

Uinp. imbal., % Setting % Network voltage imbalance 0 20 20

Uinp.imbal.dl.t.trip,s Setting s Network U imbalance delay time for tripping 0 60 5

*Uout. imbal. prot. Setting Output voltage imbalance protection Off/Interlock/AR AR

Uout. imbal., % Setting % Output voltage imbalance 0 20 20

Uout.imbal.dl.t.trip,s Setting s Uout. imbalance delay time for tripping 0 60 5

Uout.imbal.AR dl.t., min Setting min AR delay time at Uout. imbalance 0 300 5

Umin dl.t.,s Setting s Umin protection delay time for tripping after start 0 3600 15

Uinp.imbal.dl.t.,s Setting s Network voltage imbalance delay time for 0 3600 5

TsRKF 656437.019 OM. 32

tripping after start

9.1.3 1.3

Speed Setting

Rpm/H

z Rotation speed setting in rpm 250 4200 1000

Accel. Time, min Setting min

Time to reach preset rotation speed at

acceleration 0 1000 0

Rot.dir. Setting Rotation direction >>>

Mode Setting Operating mode MAN/AUT MAN

*Rins. prot. Setting Insulation resistance protection Off/On On

Rins.min,kOhm Setting kOhm Insulation resistance setting 30 500 50

*CPGP Setting Contact pressure gauge protection Off/Interlock/AR Off

CPG dl.t.trip,s Setting s Contact pressure gauge delay time for tripping 0 999 0

CPG AR dl.t., min Setting min

AR delay time by a signal from the contact

pressure gauge 0 300 60

CPG dl.t.,s Setting s

Contact pressure gauge delay time for tripping

after start 0 999 15

Misc. protections AR number Setting

AR number at miscellaneous protections

operation 0 9999 5

AR zer.time, min Setting min Time to zero AR number meters 0 9999 5

*PRG Setting Program mode enabling Off/On Off

Oper. PRG, min Setting min Program operation time 1 9999 1

Pause PRG, min Setting min Program operation pause 1 9999 1

Sw on dl.t., min Setting min Alternative start time 1 60 1

*D PROT. Setting Door protection Off/On On

*Instab. prot. Setting Instability protection Off/Interlock/AR Off

N init. accel.,rpm Setting rpm Initial rotation speed at controlled acceleration 500 4200 1500

*Imax prot.overload. Setting Imax protection or PMM has not accelerated Interlock/AR AR

AR dl.t. Imax,min Setting min Imax AR delay time and PMM has not

accelerated 1 600 15

AR number Imax Setting Imax AR number and PMM has not accelerated 0 25 5

TsRKF 656437.019 OM. 33

*Backsp. prot. Setting Backspin protection Off/On On

*Backsp.decel. Setting Backspin protection Off/On Off

Ibacksp., Setting Start current at backspin below which start is

permitted 0 24.99 0

Nturb.,rpm Setting rpm

Backspin rotation speed below which start is

permitted 0 3000 0

*Ext.lock. Setting External operation locking Off/On On

Ctrl. Setting Control by I/by U by I

dNstirr.,rpm Setting rpm Rotation speed change value at stirring 60 1800 500

*Stirr. Setting Mode "Stirring" enabling Off/On Off

Tstirr.,min Setting h Mode "Stirring" time 1 99 1

Stirr.number Setting Number of stirrings 1 9 1

F1stirr., Hz Setting Hz The first stirring frequency 30 200 50

F2stirr., Hz Setting Hz The second stirring frequency 30 200 50

V1stirr.,Hz/s Setting Hz/s The first stirring rotation speed 1 15 5

V2stirr.,Hz/s Setting Hz/s The second stirring rotation speed 1 15 5

9.1.4 1.4

*Vibr.prot.,g Setting Vibration protection Off/Interlock/AR Off

Vibr,g Setting g Maximum vibration 0 9999,00 0.1

Vibr. dl.t.trip,s Setting s

Delay time for tripping at too high maximum

vibration 0 60 5

Vibr. AR dl.t., min Setting min AR delay time at too high maximum vibration 0 300 60

*motor prot. Setting Motor temperature protection Off/Interlock/AR Off

Tmotor,C Setting C Maximum motor temperature 0 160 125

motor dl.t.trip,s Setting s Delay time for tripping at maximum motor

temperature 0 60 5

motor AR dl.t., min Setting min AR delay time at maximum motor temperature 0 300 60

*Pmin prot. Setting low pump intake pressure protection Off/Interlock/AR Off

min,atm Setting atm Minimum pump intake pressure 0 299.99 40

max,atm Setting atm Maximum pump intake pressure for startup 0 299.99 80

Pmin dl.t.trip,s Setting s Delay time for tripping at minimum pressure 0 60 5

TsRKF 656437.019 OM. 34

Pmin AR dl.t., min Setting min AR delay time at low pump intake pressure 0 3000 60

Pmin dl.t.,s Setting s

Delay time for tripping at minimum pressure after

motor start 0 3600 5

motorMin, C Setting C motor minimum temperature enabling startup 0 160 120

Tmax dl.t.,s Setting s

motor delay time for tripping at maximum motor

temperature after motor start 0 3600 5

Vibr.dl.t.,s Setting s Delay time for tripping at vibration after motor start 0 3600 5

9.1.5 1.5

*Uan.inp.1 prot. Setting Protection by a signal from analog input 1 Off/Interlock/AR Off

An.inp.1max,% Setting V

Maximum level of protection actuation by analog

input 1 0 9999 0

UAn.inp.1dl.t.trip,s Setting s Delay time for tripping by analog input 1 0 120 5

UAn.inp.1 AR dl.t., min Setting min AR delay time for tripping by analog input 1 0 300 1

UAn.inp.1 AR number Setting AR number by analog input 1 protection 0 9999 5

UAn.inp.1 dl.t., s Setting s

Delay time for tripping by analog input 1 after

start 0 60 15

*UAn.inp.2 prot. Setting Protection by a signal from analog input 2 Off/Interlock/AR Off

An.inp.2max,% Setting V

Maximum level of protection actuation by analog

input 2 -9999 99999 0

UAn.inp.2dl.t.trip,s Setting s Delay time for tripping by analog input 2 0 120 5

UAn.inp.2 AR dl.t., min Setting min AR delay time for tripping by analog input 2 0 300 1

UAn.inp.2 AR number Setting AR number by analog input 2 protection 0 9999 5

UAn.inp.2 dl.t., s Setting s

Delay time for tripping by analog input 2 after

start 0 60 15

An.inp.1min,% Setting %

Minimum level of protection actuation by analog

input 1 0 9999 0

An.inp.2min,% Setting %

Minimum level of protection actuation by analog

input 2 0 9999 0

An.inp.1nom Setting V Nominal level by analog input 1 0 9999 0

An.inp.2nom Setting V Nominal level by analog input 2 0 9999 0

TsRKF 656437.019 OM. 35

9.1.6 1.6

*Adj. Setting Automatic adjustment enabling Parameters list

by

rotation

speed

See the

item

Ppump Adj.,atm Setting atm Required pump intake pressure 0 299.99 90

Nmax adj., rpm Setting rpm motor maximum rotation speed at adjustment 500 4200 1500

Nmin adj., rpm Setting rpm motor minimum rotation speed at adjustment 500 4200 1500

Iadj., Setting Current in current adjustment mode 0 999.99 5

9.2 2

Electric meter Setting Electric meter availability Meter types list type

See the

item

EFC availability Parameter External frequency converter availability No/Yes No

SS availability Parameter Soft starter availability No/Yes No

Radio channel Parameter Radio channel availability No/Yes No

ESU availability Setting External sensor unit availability No/Yes No

?Polyans

k

An. input 1 Parameter Analog input 1 availability No/Yes No

An. input 2 Parameter Analog input 2 availability No/Yes No

Communications module Parameter Communications module No/Yes No

CPG availability Setting Contact pressure gauge availability No/Yes No

DHG type Parameter DHG type Current selection

9.3 3

Well No. Setting Well number 0 65535 0

Well pad No. Setting Well pad number 1 65535 1

Field No. Setting Field number 1 65535 1

Lrunning, m Setting m Installation depth 0 9999 0

Usec.trans.,V Setting V Transformer secondary winding voltage 380 5000 983

Recording step, min Setting min Parameter recording step 0 9999 120

TsRKF 656437.019 OM. 36

DHG Icons., mA Setting mA Leak current measured by Zenith type DHG 8 12 10

Uprim.trans.,V Setting V Transformer primary winding voltage 380 700 380

PnomStep-up transformer,

kVA Setting kVA Step-up transformer transformer nominal power 0 2000 0

Cross section, mm2 Setting mm

2 Cable cross section 1 200 1

9.4 Measurement units 3.1

N meas. unit Setting motor rotation speed measurement units rpm/Hz rpm

I meas.unit Setting Current protection measurement units / % %

An.inp.meas. unit Setting Analog input protection measurement units V / % %

P meas.unit Setting Pressure measurement units atm / psi / MPa atm

T meas.unit Setting Temperature measurement units / F

9.5 4

Date Setting Current date 01.01.2001 01.01.2029

Time Setting Current time 00:00:00 23:59:59

Summer time/winter time Setting Daylight saving enabling Off/On Off

9.6 Drive engineering package configuration 5

VSD type Setting Variable speed drive controller type Types list

See the

item

Motor type Setting Motor type Motors list

See the

item

ESP, m3/day Setting m

3/day ESP system capacity 0 2000 0

ESP head, m Setting m ESP head 0 5000 0

DHG type Setting DHG type DHG types list

See the

item

Unom.,V Setting V motor nominal voltage 100 4000 380

Inom., Setting motor nominal current 10 1500 18

Pnom.,kW Setting kW motor nominal power 1 500 8

TsRKF 656437.019 OM. 37

Iidle curr.,A Setting A Idle current 0 99.99 0.1

9.6.1 Induction motor settings 5.1

I1 off,% Setting % Ampere-second, cutoff current I1 characteristics 50 250 120

T1off,s Setting s

Ampere-second, delay time for tripping 1 characteristics 1 60 20


T2off,s Setting s



T3off,s Setting s


Fnom.,Hz Setting Hz motor nominal frequency 50/60 50

Umotor+Ucab.,V Setting V Umotor+Ucable,V 100 4000 380

COSnom. Setting Power factor 0 1 0.82

Istart,% Setting % Starting current level 50 350 100

Tjamm.,s Setting s Maximum jamming time, s 1 20 5

Ustart,% Setting % Starting voltage level 50 200 100

Fstart,Hz Setting Hz motor start frequency 2 24 03

*Jog Setting PMM start mode ?

IFF/RIFF/Pfreq./Freq.

/Off IFF see

Tjog,s Setting s Jog mode time 1 20 10

Jog numb. Setting Number of jogs 1 15 4

accel.,s Setting s Acceleration time 5 125 30

Decel. Setting s Deceleration time ? ? ?

Uwaveform Setting Voltage waveform 6clock/Sin/Sin+ Sin+

*Iaccel. Prot. Setting Current limiting in acceleration mode Off/On On

motor Fnom.,Hz Setting Hz motor nominal frequency 0 200 50

VSD Uinp., V

Setting V VSD input voltage 1 500 380

Pole pair numb. Setting Number of pole pairs 1 15 2

Fproh.zone, Hz Setting Hz Prohibited zone frequency 3 100 30

TsRKF 656437.019 OM. 38

Wproh.zone, Hz Setting Hz Prohibited zone width 0 6 0.1

Pumping type Setting Power key modulation waveform

sine/6clock/6clock+/tr

apez. Sine

Ustart,% Setting % Starting voltage level 70/80/90/100/105/112/120 70

*Jog Setting motor start mode

Common/direct/revers

e/swing/push Common see

F PWM, kHz Setting kHz PWM frequency 1 3 1

Fnetwork,Hz Setting Hz Network frequency 50/60 50

Fpickup Setting Initial frequency after power off 3 30 5

*Netw. Prot.tripping Setting Protective tripping function Off/On Off

Uswitch init., V Setting V Switchboard initial voltage 10 600 100

Upulse, V Setting V Voltage ripple threshold on diode bridge 10 99 20

Uswitch ref., V Setting V Switchboard reference voltage 0 500 200

Phase seq. Setting Phase sequence /

9.6.2 Soft starter settings 5.2

SS mode Setting Soft starter operation mode 1 3 1

Start.moment, % Setting % SS starting moment 2 99 2

Accel.time, s Setting s SS acceleration time 1 30 2

Boost, ms Setting ms SS boost, ms 2 200 20

Jamm. time, s Setting s SS jamming 1 8 2

Ijamm.,% Setting % Motor overloading by jamming 100 500 150

Imax.start., % Setting % Maximum starting current 70 130 80

9.6.3 Technical data sheet 5.3

ARGUS No. Parameter ARGUS serial number 0 9999999 0

ARGUS type Parameter Variable speed drive controller type 0 9999 0

ARGUS manuf. Parameter ARGUS manufacturer's code 0 9999 2

ARGUS date Parameter ARGUS date of manufacture 01.01.200 31.12.20 01.01.201

VSD No. Parameter Variable speed drive serial number 0 9999999 0

TsRKF 656437.019 OM. 39

VSD type Parameter VSD type as per the manufacturers classification 0 9999 0

VSD manuf. Parameter VSD manufacturer's code 0 9999 2

VSD date Parameter VSD date of manufacture 01.01.200 31.12.20 01.01.201

Note Parameter Note 0 9999999

9.6.4 DHG technical data sheet 5.4

9.6.4.1 Information on DHG submersible part 5.5

Vibr.max,g Parameter g Maximum vibration measured by DHG 0 99.99 0

SDHG manuf. Parameter DHG submersible unit manufacturer's code Manufacturers list 2

See the

item

SDHG date Parameter SDHG date of manufacture 01.01.2001 31.12.2029

SDHG pr. No. Parameter

DHG submersible part data exchange protocol

number 1 255 0

SDHG design Parameter DHG submersible part design type code 1 255 0

SDHG software No. Parameter Software version for DHG submersible part 0 65535 0

PpumpMax,atm Parameter atm

Maximum pump intake pressure that can be

measured by DHG 0 65535 0

TmotorMax, C Parameter Maximum motor temperature that can be

measured by DHG -32768 32768 0

Tfluid Max, Parameter Maximum pump intake fluid temperature that can

be measured by DHG -32768 32768 0

SDHG No. Parameter DHG submersible part number 0 9999999 0

9.6.4.2 Information on DHG surface part 5.6

Pdisch.Max,atm Parameter atm Maximum pump discharge pressure 0 999.99 0

ESPmax, m3/s Parameter m

3/day

Maximum ESP capacity, that can be measured by

flow meter 0 65535 0

ESPmin, m3/s Parameter m

3/day

Minimum ESP capacity, that can be measured by

flow meter 0 65535 0

SurfDHG manuf. Parameter DHG surface unit manufacturer's code 0 3 0 See the

TsRKF 656437.019 OM. 40

item

SurfDHG No. Parameter DHG surface part number 0 9999999 0

SurfDHG date Parameter SurfDHG date of manufacture 01.01.2001 31.12.2029 ?

SurfDHG pr. No. Parameter DHG surface part data exchange protocol number 1 255 0

SurfDHG design Parameter DHG surface part design type code 1 255 0

SurfDHG software No. Parameter Software version for DHG surface part 0 65535 0

T bit, ms Parameter ms Single bit transmission period 0 65535 0

meas. Rins.,s Parameter s Insulation resistance measurement time 0 65535 0

T par. meas., ms Parameter ms DHG parameters measurement time 0 65535 0

TmodeRins., ms Parameter ms

Time to switch to insulation resistance

measurement mode 0 65535 0

Tfluid disch. Max, Parameter Maximum pump discharge fluid temperature that

can be measured by DHG -32768 32768 0

9.6.4.3 DHG sensors configuration 5.7

Ppump sensor Parameter

Availability of pressure sensor on the pump

intake

Tmotor sensor Parameter Availability of motor temperature sensor

Tfluid pump sensor Parameter

Availability of pump intake fluid temperature

sensor

Vibr. X sensor Parameter Availability of the sensor. Vibration along axis X

Vibr. Y sensor Parameter Availability of the sensor. Vibration along axis Y

Flow sensor Parameter Availability of the fluid flow sensor

Pdisch. sensor Parameter

Availability of the sensor The pump discharge

pressure

Tfluid pump discharge sensor Parameter

Availability of the sensor. Pump intake/discharge

fluid temperature

Vibr. Z sensor Parameter Availability of the sensor. Vibration along axis Z

Vibr. XY sensor Parameter

Availability of the sensor. Root-mean-square

vibration along axes X and Y

Rins. sensor Parameter Availability of the insulation resistance sensor

TsRKF 656437.019 OM. 41

Ileak sensor Parameter Availability of leak current sensor

Toil sensor Parameter Availability of oil temperature sensor

9.7 6

Delete the history Command Delete the history

Unlocking Command Unlocking

Factory settings Command Factory settings restoration

Test Command VSD test

Meters reset Command All meters reset

Phasing Command Testing phase sequence on VSD output

Record Startup Command Record Startup

Command Change password

9.7.1 6.1

Password 1 Setting Operator password 0 9999 0

Password 2 Setting Engineer password 0 9999 0

9.8 7

Rins. Parameter kOhm Insulation resistance 0 9999

Correction, kOhm Setting kOhm Rinsulation correction, kOhm 0 9999

9.9 8

SCADA type Setting SCADA type SCADA list

See the

item

SCADA address Setting

Variable speed drive address in the telemetry

system SCADA address list 0

See the

item

Baud-rate Setting baud Data exchange rate Rate list 4

See the

item

Protocol # Setting Data exchange protocol number in the telemetry Protocols list 3 See the

TsRKF 656437.019 OM. 42

system 255 item

Recording from SCADA Setting Recording from SCADA Off/On On

9.10 Language selection on LCD 9

Russian Parameter Russian-language menu selection

English Parameter English-language menu selection

9.11 ARGUS LCD 10

Brightness Setting Indicator brightness 0 255 70

Contrast Setting Indicator contrast 0 255 100

9.12 11

9.12.1 Main readings of electric meter 11.1

9.12.1.1 Electric meter data on current day 11.1.1

Wa+d,kWA*h Parameter

kWA*

h

Current day. Active energy. Conducting

direction. 0 999999 0

Wa-d,kWA*h Parameter

kWA*

h Current day. Active energy. Reverse. 0 999999 0

W+d,kVr*h Parameter kVrA*

h

Current day. Reactive energy. Conducting


W-d,kVr*h Parameter kVrA*

h Current day. Reactive energy. Reverse. 0 999999 0

9.12.1.2

TsRKF 656437.019 OM. 43

Wa-pd,kWA*h Parameter

kWA*

h Previous day. Active energy. Reverse. 0 999999 0

W+pd,kVr*h Parameter kVrA*

h

Previous day. Reactive energy. Conducting


W-pd,kVr*h Parameter kVrA*

h Previous day. Reactive energy. Reverse. 0 999999 0

9.12.1.3 11.1.3

Wa+m,MWA*h Parameter MWA*h

Current month. Active energy. Conducting


Wa-m,MWA*h Parameter MWA*h Current month. Active energy. Reverse. 0 65535 0

W+m,MVr*h Parameter MVrA*h Current month. Reactive energy. Conducting


W-m,MVr*h Parameter MVrA*h Current month. Reactive energy. Reverse. 0 65535 0

9.12.1.4 11.1.4

Wa+pm,MWA*h Parameter MWA*h

Previous month. Active energy. Conducting


Wa-pm,MWA*h Parameter MWA*h Previous month. Active energy. Reverse. 0 65535 0

W+pm,MVr*h Parameter MVrA*h Previous month. Reactive energy. Conducting


W-pm,MVr*h Parameter MVrA*h Previous month. Reactive energy. Reverse. 0 65535 0

9.12.1.5 11.1.5

Wa+y,MWA*h Parameter MWA*h

Current year. Active energy. Conducting


Wa-y,MWA*h Parameter MWA*h Current year. Active energy. Reverse. 0 65535 0

W+y,MVr*h Parameter MVrA*h Current year. Reactive energy. Conducting


W-y,MVr*h Parameter MVrA*h Current year. Reactive energy. Reverse. 0 65535 0

TsRKF 656437.019 OM. 44

9.12.1.6 11.1.6

Wa+py,MWA*h Parameter MWA*h

Previous year. Active energy. Conducting


Wa-py,MWA*h Parameter MWA*h Previous year. Active energy. Reverse. 0 65535 0

W+py,MVr*h Parameter MVrA*h Previous year. Reactive energy. Conducting


W-py,MVr*h Parameter MVrA*h Previous year. Reactive energy. Reverse. 0 65535 0

9.12.1.7 11.1.7

9.12.2 Electric meter quadrants 11.2

9.12.2.1 Electric meter data on current day 11.2.1

WdI,kVA*h Parameter kVA*h Current day. Reactive energy.

Quadrant I. 0 0 0

WdII,kVA*h Parameter kVA*h Current day. Reactive energy.

Quadrant II. 0 0 0

WdIII,kVA*h Parameter kVA*h Current day. Reactive energy.

Quadrant III. 0 0 0

WdIV,kVA*h Parameter kVA*h Current day. Reactive energy.

Quadrant IV. 0 0 0

9.12.2.2 Electric meter data on previous day 11.2.2

WpdI,kVA*h Parameter kVA*h Previous day. Reactive energy. Quadrant I. 0 0 0

WpdII,kVA*h Parameter kVA*h Previous day. Reactive energy. Quadrant II. 0 0 0

WpdIII,kVA*h Parameter kVA*h Previous day. Reactive energy. Quadrant III. 0 0 0

WpdIV,kVA*h Parameter kVA*h Previous day. Reactive energy. Quadrant IV. 0 0 0

9.12.2.3 Electric meter data on current month 11.2.3

TsRKF 656437.019 OM. 45

WmI,MVA*h Parameter MVA*

h

Current month. Reactive energy.

Quadrant I. 0 600000 0

WmII,MVA*h Parameter MVA*

h

Current month. Reactive energy.

Quadrant II. 0 600000 0

WmIII,MVA*h Parameter MVA*h Current month. Reactive energy.

Quadrant III. 0 600000 0

WmIV,MVA*h Parameter MVA*h Current month. Reactive energy.

Quadrant IV. 0 600000 0

9.12.2.4 Electric meter data on previous month 11.2.4

WpmI,MVA*h Parameter MVA*h Previous month. Reactive energy. Quadrant I. 0 600000 0

WpmIII,MVA*h Parameter MVA*h Previous month. Reactive energy. Quadrant II. 0 600000 0

argus manual

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