Operator manual Simrad PI32 Catch monitoring system www.simrad.
857-164636 / Rev.A Simrad PI32 Catch monitoring system Operator manual Important notice Operation of the PI32 Catch monitoring system assumes that the communication between the Operator Unit and the sensors is fully functional. Ensure that the communication channels and update rates defined on the Operator Unit matches those of the sensors.
About this document Rev Date Written by Checked by Approved by Rev.A 04.12.05 RBr KRa KRa Original issue © 2005 Simrad AS ISBN 82-8066-059-3 All rights reserved. No part of this work covered by the copyright hereon may be reproduced or otherwise copied without prior permission from Simrad AS. The information contained in this document is subject to change without prior notice.
Operator manual Sections 1 Introduction This section introduces the PI32 Catch monitoring system operator manual. Refer to page 1. 2 System description This section provides a general introduction to the PI32 Catch monitoring system and the units in use. Refer to page 2. 3 Getting started This section provides general guidelines to help you get started with the PI32 Catch monitoring system. Refer to page 8.
Simrad PI32 12 Sensor test procedures This section provides simple test procedure you can use to verify the the sensors are working properly. Refer to page 223. 13 Technical specifications This section provides the basic technical specifications. Refer to page 243. II 857-164636 / Rev.
Operator manual INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 SYSTEM DESCRIPTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 System diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Operator Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4 Hull mounted and portable hydrophones . . . . . . . . . . . . . . . . . . . . . .
Simrad PI32 How to set up a Twin Spread sensor for twin trawl applications . . . . How to access graphic display parameters . . . . . . . . . . . . . . . . . . . . . How to view echo sounder data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . How to set up marker lines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Special features for trawl marker lines . . . . . . . . . . . . . . . . . . . . . . . . How to access echo sounder parameters . . . . . . . . . . . . . . . . . . .
Operator manual Factory presets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Graphic setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 159 160 Interface setup NMEA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 162 Interface setup remote/alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Navigation setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Simrad PI32 Sensors Use this table to write down the sensors you use on your PI32 Catch monitoring system. Sensor type VI Serial number Communication channel Update rate 857-164636 / Rev.
Operator manual Sensors Use this table to write down the sensors you use on your PI32 Catch monitoring system. Sensor type 857-164636 / Rev.
Simrad PI32 VIII 857-164636 / Rev.
Introduction INTRODUCTION The Simrad PI32 is an integration of proven commercial fishing technologies which can dramatically increase the yield and effectiveness of purse/danish seining and bottom/pelagic trawling applications.
Simrad PI32 SYSTEM DESCRIPTION The Simrad PI32 Catch monitoring system consists of an operator station, a hydrophone and an optional echo sounder transducer. The hydrophone and the transducer are both mounted under the vessel’s hull. The system further comprises a number of small and robust sensors measuring the conditions on your fishing gear. The PI32 Catch monitoring system can work with three sensors simultanously. The sensors are powered by built-in rechargeable batteries.
System description System diagram (A) = Operator Unit (B) = PI charger (C) = Hydrophone (provides communication with the sensors) (D) = Optional echo sounder transducer. Several types are available. (E) = Sensors mounted on the net. Maximum three sensors may be used simultanously, and several types are available. (F) = Interfaces to external sensors (serial lines, NMEA format) (G) = +24 Vdc power 857-164636 / Rev.
Simrad PI32 Operator Unit The PI32 Operator Unit is a marine grade electronic instrument incorporating an impact resistant polycarbonate front panel, die-cast aluminium housing and watertight electrical connections. The PI32 electronics are sealed in the operator unit allowing the it to be flush or bracket mounted in the wheelhouse or at an exposed control station. Computed information is displayed in both numerical and graphical form on the display.
System description Hull mounted and portable hydrophones Two hull mounted hydrophones are available, one for purse seining operations, and one for trawl operations. You can install both, and then select active hydrophone by means of a selector box on the bulkhead. Purse seining: The hull mounted hydrophone for purse seining operations has a 90 degrees horizontal beam and a 30 degrees vertical beam to provide the PI32 with optimal reception from the sensors.
Simrad PI32 Sensor overview This chapter provides a very short description of each sensor. • Depth sensor - The Depth sensor provide information about the current depth as well as the descending or ascending rate related to the surface. • Catch sensor - The Catch sensor provides information about the amount of catch in the trawl. The sensor monitors the opening of the meshes in the cod-end, and will activate once the caught volume pulls the detector wire.
System description Battery chargers All sensors are power by internal batteries, and these need charging at regular intervals. The Simrad chargers have been designed to allow the sensors to be stored in charging positions whenever they are not used, and “overcharging” will not take place. Either of the two charger types can be used on any of the sensors, but the PI Charger will only provide fast charging on the PI Sensors.
Simrad PI32 GETTING STARTED This section contains an brief overview of the basic system operation. If you are a first time user, we recommend that you read through this chapter while operating the PI32 so that you can familiarize yourself with the buttons, menus and display presentations. In order to navigate the menu structures and display presentations, you need to know the most important buttons. MENU: Press to access the main menu. Press again to close it.
Getting started How to switch power on and off Observe the following procedure to switch the PI32 on and off. Power on 1 Press and hold the PWR button until the display is switched on. 2 Observe that the start-up page appears. When you power up the PI32, it will automatically assume operation using the most recent page mode. Power off 857-164636 / Rev.A 1 Press the PWR button to call up the Light and power dialogue. 2 Press and hold the PWR button to switch off the PI32.
Simrad PI32 Defining initial presentation pages Observe the following procedure to set up the four display pages on the PI32. The presentations chosen are those commonly used, but using the guidelines in this procedure you can change the content of individual pages to suit your requirements. Page 1: Echo sounder 1 Press the MENU button to bring up the main menu. 2 Press the Selector pad to move the cursor (inverse video) to the ECHO choice on the main menu. 3 On the Echo menu, select Echo display.
Getting started 2 Press the MENU button to bring up the main menu. 3 Press the Selector pad to move the cursor (inverse video) to the NAV choice on the main menu. 4 On the Navigation menu, select Navigation display. 5 Press the ENT button to enter the choice. The navigation display appears. If you already know how to set up the basic parameters you can access the setup page by pressing the ENT button one more time.
Simrad PI32 Introduction to the main menu The main menu is located across the top of the display. To open the menu, press the MENU button. Note that if it is left unactivated, the menu will disappear automatically after a few seconds. Each of the four options of the main menu provide a drop-down menu. On these, you can select which information to view on the display pages, or which parameters to define.
Getting started Introduction to the keypad The keypad is used for direct user interface with the PI32 system, and allows you to control the functionality. Note that the majority of the buttons are mainly used only during echo sounder operations, and that some of them will only work when they are enabled by a specific function. MENU: This button turns the menu bar on and off. It will also allow you to exit dialogues without applying any changes. ENT (Enter): Turns the cursor on and off.
Simrad PI32 B-LCK (Bottom lock): This button actuates a full-screen standard echo sounder display, and then expands the area just above the bottom. In the expanded presentation, the bottom will appear flat. Choose the vertical expansion range in the setup menu. The page is provided by replacing the current presentation with the echo sounder presentation. If you did not have an echo sounder presentation amoung your four predefined pages, you will have one now.
Getting started Introducing the sensors The PI32 Catch monitoring can be used with a variety of sensors. All these sensors can be placed on your trawl or purse seine to monitor key parameters. On the PI32, you can use a maximum of three sensors simultanously. There are two sensor families; PI and PS. The sensors in the two families are almost identical, and they can be used together on the same PI32 system.
Simrad PI32 • Pelagic trawl: On a pelagic trawl, this sensor proves very useful when the trawl moves downwards. It will let you know immediately if the footrope touches bottom. • Purse seine: When you work with a purse seine, you need to know when the seine reaches the bottom. This sensor will let you know. once it happens. • Danish seine: Used on a Danish seine, the sensor will let you know when the net has a stable bottom contact, and when it is time to haul.
Getting started Depth: How deep can you go? When the sonar and echo sounder tell you how deep the school goes, it is good to know that you can place your fishing gear at the same depth. And even better, you can monitor and hold the desired depth. The design is rugged and awardwinning, and the sensor is available for three different depth ranges. The PI Depth sensor provides information about the current depth and the depth changes of your gear.
Simrad PI32 Rip: Check for damages! The Rip sensor is identical to the Catch sensor, and can thus be regarded as a application for the Catch sensor. Place the sensor on the trawl belly behind the footrope, and use it to detect if the trawl is torn or in any other ways damaged by rocks or other roughness on the bottom. If this is detected immediately you can adjust the gear to minimise the damage.
Getting started The water temperature is an important parameter. Fish and bait are temperature sensitive, and they are normally found within specific temperature zones for feeding and spawning. However, the temperature layers in the water are changing constantly, and for this reason the temperature must be monitored constantly. Fishing in an area with unfavourable water temperature might be just a waste of time! For any kind of trawling, use this sensor to monitoring and log the temperature.
Simrad PI32 APPLICATION EXAMPLES The Simrad PI32 system is designed to fulfill all your requirements within a range of specific applications. This chapter provides a few examples on how the various sensors can be placed on your fishing gear. It also provides a brief description of the echo sounder and graphic display functionality.
Applications Purse seine When used for purse seining, the PI32 system must have one or more of the following sensors attached to the net: Depth sensor, Bottom Contact sensor and Temperature sensor. The system is designed to be used with up to three sensors, optimally two Depth sensors and one Temperature or Bottom Contact sensor. The sensor configuration can be tailored to suite individual needs.
Simrad PI32 Danish seine When used for Danish seining the PI32 system needs up to three of the following sensors attached to the net: Depth and Bottom Contact. The system is designed to be used with up to three sensors. Optimally two Depth sensors (located at the top and bottom of the net) and one Bottom Contact sensor are used. Sensor configuration can be tailored to suite individual needs.
Applications Bottom trawl When used for bottom trawling, the PI32 system will give you all necessary information about the trawl status. You should have minimum three of the following sensors attached to the net: Depth sensors(s), Bottom Contact sensor, Rip sensor and Catch sensors(s). The system is designed to be used with up to three sensors. We recommend that you use a Catch sensor, a Height sensor behind the headrope and a Spread sensor. Sensor configuration can be tailored to suite individual needs.
Simrad PI32 Pelagic trawl When used for pelagic trawling the PI32 system must have one or more of the following sensors attached to the net: Depth sensor(s), Bottom Contact sensor, Temperature sensor, Rip sensor and Catch sensor(s). The system is designed to be used with up to three sensors. We recommend that you use a Catch sensor, a Depth sensor behind the headrope, and a Spread sensor. Sensor configuration can be tailored to suite individual needs.
Applications Echo sounder The built-in echo sounder will provide information about depth, bottom contours and the presence of fish below the vessel. The echo sounder can use three frequencies; 38 kHz, 50 kHz and 200 kHz. Two frequencies can be operated simultanously. The following operational modes are available • Standard mode: Range start is fixed, and the depth range can be altered • Bottom lock: The echo sounder provides an expansion window to study the echoes closest to the bottom.
Simrad PI32 Graphic display By means of the built-in echo sounder and the information provided by the analogue sensors, you can set up a graphic display to give you a total overview of the underwater situation. The graphic display presents the echogram at the bottom of the screen while the numerical sensor presentations are listed at the top of the screen. The information from those sensors providing analogue data (Depth, Height, Temperature and Spread) are superimposed on the echogram.
Display modes DISPLAY PRESENTATIONS The PI32 supports a range of display presentations. These are the information elements that you can choose to see on each page. Topics 857-164636 / Rev.
Simrad PI32 Numeric display The numeric display provides vital sensor data in large, easy to read digits and symbols. In the following, all sensor presentations are explained in detail. This illustration shows a typical twin display setup with the numeric presentation from six sensors on the left side and an echo sounder presentation on the right hand side. The background colour for the numerical display presentations can be selected individually from the palette.
Display modes Bottom Contact presentation The Bottom Contact sensor presentation is shown below. (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, B4 means that it is a bottom contact sensor, and that it is sensor no.4. (B) Status field. The three arrows display “bottom contact”, graphically represented by the black or red downward pointing arrows in contact with the horizontal black line.
Simrad PI32 Catch presentation The Catch sensor presentation is shown below. Note: If you use more than one catch sensor in the trawl, make sure that you configure them with different channel numbers, and that you mount and read them in the correct order! (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, C3 means that it is a catch sensor, and that it is sensor no.3. (B) Status field.
Display modes Depth presentation The Depth sensor presentation is shown below. (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, D1 means that it is a depth sensor, and that it is sensor no.1. (B) Unit of measure. [m] means meter, [ft] means feet, [fm] means fathoms and [pb] means braccia. (C) Depth readout. (D) Ascending or descending speed of the net shown in units per minute.
Simrad PI32 Height presentation The Height sensor presentation is shown below. (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, H1 means that it is a height sensor, and that it is sensor no.1. (B) Unit of measure. [m] means meter, [ft] means feet, [fm] means fathoms and [pb] means braccia. (C) Readout of the actual height between the sensor and the sea bottom. (D) Speed of increasing or decreasing depth.
Display modes Spread presentation The Spread sensor presentation is shown below. (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, S3 means that it is a spread sensor, and that it is sensor no.3. (B) Unit of measure. [m] means meter, [ft] means feet, [fm] means fathoms and [pb] means braccia. (C) Readout of the actual distance between the two trawl doors.
Simrad PI32 Temperature presentation The temperature sensor presentation is shown below. (A) The character and the number identifies the type of sensor, and which identification number the sensor has on the PI32 system. In this example, T2 means that it is a temperature sensor, and that it is sensor no.2. (B) Temperature readout. (C) Unit of measure in Celcius or Fahrenheit. (D) Temperature trend, indicates if the temperature is falling or rising.
Display modes Graphic display The graphic display provided by the PI32 offers an accurate echo sounder combined with numeric readouts from the net sensors. Note that some of the information provided by the graphic presentation assumes that you have the relevant sensors connected to your PI32 system. The following information is provided in the graphic presentation. (A) Numeric display. In this example, the information from a depth sensor is shown. The current depth is 25.9 meters. (B) Numeric display.
Simrad PI32 (G) Bottom echo (H) Height of trawl opening (manual input) (I) Time scale. Information not shown in this example Temperature scale: When requested, a temperature scale can be provided on the left side of the display. To switch the temperature scale on or off, use the Graphic setup. Depth bars: Depth information from relevant sensors can be shown as vertical bars on the right side of the display.
Display modes Surface temperature The Surface temperature display shows the current temperature. By means of the graph it will also show you the temperature history for the past minute. The presentation is activated from the Fishery menu. To have this information available, you must have the relevant temperature feeler connected to your PI32 system. A suitable feeler is integrated with several Simrad echo sounder transducers, or it may be connected as a separate peripheral.
Simrad PI32 Status display The Status display shows sensor data, signal thresholds and background noise levels providing an overview of present hydro-acoustical conditions and the margin for reliable signal detection. Other information displayed includes cable status, program version, and echo sounder / position information. Note that some of the information provided by the Status display assumes that you have the relevant sensors connected to and operational on your PI32 system.
Display modes The second lines shows: • The current AGC status (Automatic Gain Control) • The status off the hydrophone cable. A yellow circle means that the cable is serviceable. A black circle means that it has broken, while a red circle indicates a short circuit. • CH/R: The channel number of the sensor from which data was last received. • E: Error code for systems manlfunctions. The error code “0” signifies that no system error is present. (E) Frequency spectrum for frequencies on the 00 to 15 band.
Simrad PI32 Echo sounder display The PI32 offers an accurate echo sounder with a colour display. The echo sounder can operate on 38, 50 or 200 kHz, and with two frequencies simultanously. In order to enjoy the echo sounder functionality, you must have one or two echo sounder transducers installed. Note that some of the information provided by the echo sounder presentation assumes that you have the relevant sensors connected to your PI32 system.
Display modes (H) Single fish echo (I) Current primary technical parameters. The top line specifies the current operational frequency. The second line specifies the current output power (”A” means that it is set automatically), and the third line specifies the current pulse length. The presentation is controlled by the parameters defined in the presentation setup. To change these parameters, press the ENT button to open the Presentation setup.
Simrad PI32 VRM expansion The PI32 provides an VRM expansion function. When enabled the vertical area on both sides on a vertical range marker (VRM) is expanded. The resulting echo sounder presentation is thus split in two with the lower half of the screen providing the expanded view. When activated, you can move the depth of the vertical marker by pressing the circular Selector pad. To enable the this function, press the MENU button, and select VRM expansion on the Echo menu.
Display modes Navigation display The navigation display provided by the PI32 offers all key information related to waypoint navigation. Note that the information provided by this presentation assumes that you have the relevant sensor (GPS) connected to your PI32 system. The following information is provided by the Navigation display: (A) “C” is the current course over ground, while “B” is the course to the next waypoint.
Simrad PI32 Position display The Position display provided by the PI32 offers all key information related to safe navigation on one display presentation. Note that the information provided by the Position display assumes that you have the relevant sensors (GSP and temperature feeler) connected to your PI32 system. The following information is provided by the position display: Water temperature: The temperature will only be available if the applicable temperature feeler is connected to the PI32.
Operational procedures OPERATIONAL PROCEDURES Overview This chapter will provide you with basic procedures in order to help you set up the most common functions and parameters in the PI32.
Simrad PI32 How to define sensor presentation The information from the various sensors are provided by the Numerical display, where each sensor is presented in its own rectangular data winsow. How to show or hide the graphic alarm 1 Ensure that you have a Numeric display presentation in your active window. 2 Press the ENT button to open the Numeric setup dialogue. 3 Switch Show graphic alarm on or off. 4 Press the ENT button to save the parameters and exit.
Operational procedures 2 On the Setup menu, select Display colour. 3 Observe the first palette page appear. It contains fixed colours, which can not be altered. Press the + button repeatedly until you reach a custom page. 4 By means of the circular Selector pad and the + and buttons, select the requested colour(s). 5 Press the ENT button to accept the choice. Related topics 857-164636 / Rev.
Simrad PI32 How to set up the sensors The very first time you switch on the PI32, you will need to set up the sensor configuration. This will also be required if you perform a “master reset” on the PI32, and then reload the manufacturer’s default settings. Observe the following procedure to establish the most common values. For more detailed information about the settings, refer to the References chapter.
Operational procedures Predefined settings Each sensor is delivered with a predefined setup. This setup includes: • transmission channel for the acoustic communication link between the sensor and the vessel’s hydrophone • update rate; how often the sensor sends its readings back to the PI32 system. To change the sensor setup, you can call your local Simrad dealer, or you can do it yourself if you have the proper equipment, training and the PI Configurator software.
Simrad PI32 • A low update rate will provide you with fewer information updates, but the battery will last very long. • A high update rate will give you frequent information updates, but the battery will run out faster. All sensors are provided from Simrad with a default update rate setting. In some cases you may find that this update rate does not suit your operational needs. This is a decision you have to make depending on the local fishing conditions.
Operational procedures How to mount the sensors on the net Once the sensor has been coded correctly, you must mount it on the net. The mounting instructions for each sensor is provided in the Sensors chapter, and the same information can also be found on the Quick Reference Guide for each sensor. Related topics → 857-164636 / Rev.
Simrad PI32 How to use the sensors Once the sensors have been coded and installed on the net, they will automatically be switched on once they are submerged into water. The PI32 will then automatically retreive information from them, and provided that you have chosen the correct display presentation, the information will be provided to you. Applications The various applications available to you with the different sensors are explained in the Getting started and Applications chapters.
Operational procedures How to replace the sacrificial water switch All PI and PS sensors are equipped with a water switch, and two different types are used. If your sensors are equipped with a brass screw, observe the following procedure for replacement. 1 Turn the sensor upside down, and locate the brass screw. 2 Inspect the screw for wear and tear. If required, replace the screw. A standard commercial brass screw is used.
Simrad PI32 How to test the sensors By using the PI Configurator, you can test the operational status of each sensor. Test procedures for all the sensors have been provided in a separate chapter in this manual. Note that PI and PS sensors are tested using the same procedures. Related topics 54 → PI Configurator, page 184 → Test procedures, page 223 857-164636 / Rev.
Operational procedures How to calibrate the Depth sensor Only the Depth sensor can be calibrated. The purpose is to ensure that the depth reported by the sensor is as accurate as possible. This procedure is carried out onboard the vessel. Note: 1 Mount a rope to the top fastening lugs on the sensor. 2 Tighten the rope, and measure one meter from the bottom of the sensor to a spot on the rope. Place a visual marker on the rope at that location.
Simrad PI32 How to define sensor offsets Only the Depth and Spread sensors can have their offset values adjusted. The purpose is to allow you to compensate for known deviations. You may wish to insert a Depth sensor offset to line up the depth readings from the sensor with those from your echo sounder. If the echo sounder transducer is located X meters below the surface, the Depth sensor should have the same offset value.
Operational procedures How to set up a Twin Spread sensor for twin trawl applications By means of the Twin Spread sensor, you can set up your PI32 to monitor the openings on a twin trawl. Apart from the Twin Spread sensor, you will also need two Remote sensors. Sensor configuration The Twin Spread and Remote sensors are supplied in sets, and they MUST operate in these sets. The sets are: • Twin Spread 1 uses two Remote sensors; Remote 1 and Remote 3.
Simrad PI32 This configuration will allow the Twin Spread sensor to measure the distance from the port door to the centre clump directly. It will also measure the distance between the two trawl doors. In order to calculate the distance between the centre clump and the starboard door, you must perform the required settings on the PI32. (P) = Port trawl (S) = Starboard trawl (C) = Port trawl door with the Twin Spread 1 sensor mounted. (D) = Centre clump with Remote 1 mounted.
Operational procedures Sensor setup Observe the procedure below to set up a Twin Spread configuration with its default settings. In this procedure, sensors 1 and 2 are used, and no other sensors are shown. Due to the fact that the Twin Spread sensor occupy two communication channels, the setup program requires that it is configured as if it was two separate sensors, but not necessarily sensors 1 and 2. The remaining four channels can be used for other sensors.
Simrad PI32 According to the sensor locations previously described, Spread 1 will now measure the distance from the port trawl door to the centre clump, while Spread 2 will measure the distance from the port trawl door to the starboard trawl door. Readout adjustments It is necessary to set certain parameters in order to have the PI32 to calculate the distance from the centre clump to the starboard trawl door.
Operational procedures • Numeric display: Rectangle S1 shows the distance between the port trawl door and the centre clump. Rectangle S2 shows the distance between the port trawl door and the starboard trawl door. • Additional information: The information bar directly below the numeric rectangles displays the abbreviation TS and a value. This value represents the distance between the centre clump and the starboard trawl door. Related topics 857-164636 / Rev.
Simrad PI32 How to access graphic display parameters The various parameters defining the Graphic display presentation are controlled from the following dialogues: • Graphic setup • Numeric setup • Trawl info How to use the most common parameters are explained in separate procedures. Access to Graphic setup 1 Make sure that you have a Graphic display presentation in your active window. 2 Press the ENT button to open the Graphic setup dialogue.
Operational procedures How to view echo sounder data When you have chosen the Graphic display presentation, you can choose to superimpose the information from the echo sounder. This feature allows you to see where your sensors are located in relation to the bottom and fish echoes. Note that this feature will only work if you have mounted an echo sounder transducer to the PI32. 1 Make sure that a Graphic display presentation is active. 2 Press the ENT button to open the Graphic setup dialogue.
Simrad PI32 How to set up marker lines When you have chosen the Graphic display presentation, you can choose to superimpose the information from the echo sounder, and then add marker lines to see where your sensors are located in relation to the bottom and fish echoes. Note that the echo sounder data will only appear if you have mounted an echo sounder transducer to the PI32.
Operational procedures Access to the marker line parameters 1 2 3 Make sure that a Graphic display presentation is active. Press the ENT button to open the Graphic setup dialogue. The Marker line parameter allows you to switch the marker line on or off for sensors S1, S2 and S3. Depth and Height marker lines The purpose of these marker lines is to provide an easy way to monitor the depth of the gear.
Simrad PI32 Surface temperature marker line The purpose of this marker line is to provide an easy way to monitor the surface temperature. Note that this is NOT a reading from a temperature sensor, but from a feeler. Such feelers are often built into the echo sounder transducers. 1 Ensure that a proper feeler is connected to the PI32. 2 Set the marker line to On. 3 Enter the preferred settings for Marker line thickness and Marker line delay.
Operational procedures Special features for trawl marker lines When you have chosen a graphic presentation, you can choose to superimpose the information from the echo sounder, and then add marker lines to see where your sensors are located in relation to the bottom and fish echoes. When you use a pelagic or bottom trawl, the PI32 offers certain special features to provide additional information.
Simrad PI32 • Trawl opening mode: This parameter decides how the trawl opening shall be recreated on the graphic presentation. If you have sufficient sensors on the trawl you must select Auto, and the the PI32 will automatically calculate the trawl opening and draw it accordingly. If you only have one sensor on the trawl opening (Depth or Height sensor on the headrope), the Manual setting will add an artificial line on the presentation.
Operational procedures How to access echo sounder parameters The built-in echo sounder is easily controlled from separate dialogues. • The Echo presentation setup dialogue controls the visual parameters, such as Range, Gain, White line and Expansion window. • The Echosounder setup dialogue controls the operational parameters, such as alarms, sound velocity and transducer selection. How to find the most common parameters are explained in separate procedures.
Simrad PI32 How to use visual aids and filters When you use the echo sounder, several visual aids and filters are available to make the echoes easier to read and interpret. Ping to ping filter This function employs a filter which compares the echo information from one ping with the information from the previous ping. This will “clean up” the echogram by removing random noise spikes and interference with no correlation with the previous echo. The function will thus make the echoes appear more stable.
Operational procedures Scroll speed This function controls how fast the presentation shall scroll from right to left across the display. By defining this speed you also control the time scale. If you slow down the scroll speed, you will also increase the time between each echo sounder transmission (ping). If you choose FREEZE the presentation (and also the echo sounder transmissions) will stop altogether. 1 Make sure that your echo sounder presentation is active.
Simrad PI32 How to define echo sounder range There are two parameters for range: • Range start: This is the upper depth from which the echo sounder will provide its presentation. • Range: This is the vertical depth range for the echo sounder. The PI32 also offers a Phased range function, where the Range is fixed, but the Range start is modified. The two parameters in question are located at the top of the parameter list.
Operational procedures You will see that different ranges are used, but the value for the Range start is always added. For example, if you set the Range start to 30 meters, and then select the 250 meters range, the total range achieved is from 30 to 280 meters. The upper 30 meters are however not shown in the echogram. Related topics → 857-164636 / Rev.
Simrad PI32 How to zoom in on bottom echoes The Bottom Expansion functions allows you to zoom in on the echoes closest to the bottom. When this function is active, the echo sounder presentation is split in two. The upper part is the ordinary presentation, while the lower part shows the echoes just above the bottom. The bottom appears to be flat, but this may not be the case, as the zoomed area is related to the bottom. Activate Bottom Expansion 1 Make sure that your echo sounder presentation is active.
Operational procedures How to zoom in on pelagic echoes The VRM Expansion functions allows you to zoom in on echoes in the water column. When this function is active, the echo sounder presentation is split in two. The upper part is the ordinary presentation, while the lower part shows the expansion window with the echoes over and under a reference depth. Activate VRM Expansion 1 Make sure that your echo sounder presentation is in view. 2 Press the MENU button to open the main menu.
Simrad PI32 How to enable A-Scope presentation The A-Scope presentation provides the echo from the latest ping only. The strength of the returned signal from various depths in the water column are indicated by the horizontal deflections from the Y-axis. This presentation is very useful if you wish to search for single fish, as those echoes are hard to see on the regular echogram. Also, the presentation will give an indication on how strong the various echoes are.
Operational procedures How to define alarm limits The PI32 will provide a variety of audible and visible alarms to keep you posted when something occur. Observe the following procedures to set up an enable the most common alarms. For more detailed information about the setup pages, refer to the References chapter. Speed alarm The speed alarm provides you with an audible warning if the vessel’s speed exceeds a predefined speed limit, or if the speed is lower than a predefined minimum.
Simrad PI32 2 On the Echo menu, select Echo sounder setup. 3 When the page is presented, press the ENT button again to allow editing. 4 Move the cursor down the the Depth DK alarm alarm parameters. (DK means “depth under keel”.) 5 Select required minimum and/or maximum depths, and set the alarms to ON. 6 Press the ENT key to store the parameters and exit. Sensor alarms The sensor alarms provide you with an audible and visual warning if the data from a sensor exceeds predefined limits.
Operational procedures 1 Verify that the echo sounder is operational. 2 Press the MENU button to access the main menu. 3 On the Setup menu, select Sensor alarm/calibration. 4 Select minimum and/or maximum distance for the alarms, and activate each alarm separately. 5 Press the ENT key to store the parameters and exit. The clearance alarm will take the current depth reading from the echo sounder and subtract the current depth reading from the Depth sensor.
Simrad PI32 How to select menu language The menus on the PI32 can be provided in several different languages. Observe the following procedure to select menu language. For more detailed information about the setup pages, refer to the References chapter. 1 Press the MENU button to access the main menu. 2 On the Setup menu, select Speed alarm, units & language. 3 Move the cursor down the Display text in parameter. 4 Press the + or - buttons to select language.
Operational procedures How to control automatic page rotation You can set up the PI32 to automatically leaf through the four display pages. Each page will then be shown a set time before the next page is brought up. Observe the following procedure to set up automatic page rotation. For more detailed information about the setup pages, refer to the References chapter. 1 Press the MENU button to access the main menu. 2 On the Setup menu, select Speed alarm, units & language.
Simrad PI32 How to restore default settings Whenever necessary you can restore the default factory settings on the PI32. Observe the following procedure. Caution: 1 Press the MENU button to access the main menu. 2 On the Setup menu, select Master reset. 3 Press the selector pad “up”, then press it “down”. 4 Press the ENT button. If you choose to do a master reset, you will need to redefine every single parameter you have made on the PI32.
Sensors PRACTICAL USE OF THE SENSORS The PI32 Catch monitoring can operate with several different sensors. In the following, the most important information regarding installation and use of each sensor is described. Both PI and PS sensors are described. The PI sensors have longer ranges, they can be “fast-charged” using the PI Charger, and they will provide some additional functionality. For all other practical purposes the two types may be regarded as identical.
Simrad PI32 Sensor configuration Communication channels and update rates All sensors are provided from the factory with pre-defined communication channels and update rates. Sensor Com.
Sensors Changing the update rate It may be required to change the update rate on a sensor, that is how often it sends information back to the PI32 system. A high update rate will give frequent information updates, but the sensor will use more battery power. If you need your batteries to last as long as possible, you must consider lowering the update rate. • A low update rate will provide you with fewer information updates, but the battery will last very long.
Simrad PI32 You can select the communication channels between the PI Spread sensors and the vessel to suit your preferences. 86 857-164636 / Rev.
Sensors PI Bottom Contact sensor Purpose The PI Bottom Contact sensor detects if a trawl is accidentally lifted off the seabed, or a purse seine is touching the bottom. (A) = The trawl follows the bottom. The detection wire on the sensor is not released. (B) = The trawl has lifted off the bottom, and the detection wire is released.
Simrad PI32 Note: Charging sensors at sub-zero temperatures can create explosive gasses. Simrad AS assumes no liability for the improper charging of sensors or the use of chargers not specified in Simrad sensor charging documentation. Bottom Contact presentation On the PI32 display, the Bottom Contact sensor status is displayed with graphic symbols. Note that the timers count the total number of minutes the sensor has lost contact with bottom.
Sensors • Normal (~5,3 sec): Recommended for normal fishing. • Slow (~33 sec): Recommended if maximum operational battery life before charging is required. The system will be more sensitive to bad communication conditions due to the slow data update. System configuration Sensor configuration: The sensor must be configured with a unique sensor number. Select update rate and channel number according to the sensor’s configuration. Write down this configuration for future reference.
Simrad PI32 Set up: Correct function requires that the length of the stay (F) and the detection chain (G) are trimmed with regard to each other and the gear in use. Standard delivery includes a 63 cm stay and 39 cm detection chain for use with 14 to 16 inch bobbins or rock hoppers (C). (A) = Attachment ring for the stay seized securely underneath the footrope (B) = Penetration ring for the detection wire (C) = Rock hopper, bobbins etc.
Sensors PS Bottom Contact sensor Purpose The PS Bottom Contact sensor detects if a trawl is accidentally lifted off the seabed, or a purse seine is touching the bottom. (A) = The trawl follows the bottom. The detection wire on the sensor is not released. (B) = The trawl has lifted off the bottom, and the detection wire is released.
Simrad PI32 Note: Note that charging sensors at sub-zero temperatures can create explosive gasses. Simrad AS assumes no liability for the improper charging of sensors or the use of chargers not specified in Simrad sensor charging documentation. Bottom Contact presentation On the PI32 display, the Bottom Contact sensor status is displayed with graphic symbols. Note that the timers count the total number of minutes the sensor has lost contact with bottom.
Sensors Normal (~5,3 sec): Recommended for normal fishing. Slow (~33 sec): Recommended if maximum operational battery life before charging is required. The system will be more sensitive to bad communication conditions due to the slow data update. System configuration Sensor configuration: The sensor must be configured with a unique sensor number. Select update rate and channel number according to the sensor’s configuration. Write down this configuration for future reference.
Simrad PI32 Set up: Correct function requires that the length of the stay (F) and the detection chain (G) are trimmed with regard to each other and the gear in use. Standard delivery includes a 63 cm stay and 39 cm detection chain for use with 14 to 16 inch bobbins or rock hoppers (C). (A) = Attachment ring for the stay seized securely underneath the footrope (B) = Penetration ring for the detection wire (C) = Rock hopper, bobbins etc.
Sensors PI Catch sensor Purpose The PI Catch sensor detects when the trawl has been filled with fish. The sensor monitors the opening of the meshes in the cod end, and will be activated once the volume caught is enough to pull the detector wires. Catch sensor principle: Three sensors are mounted at the cod end of the trawl to detect the amount of fish caught.
Simrad PI32 Once installed and put to use, the sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts transmission of the detection wires (F) status (in or out). When the sensor is not in use, check that the sensor lamp (D) is not flashing from time to time, as this indicaties that the sensor is on and is discharging its batteries. In this case, wash the sensor in fresh water to remove salt and dirt.
Sensors Sensor configuration On delivery, all Catch sensors are configured in Channel 4 and with Normal update rate. If you use more than one Catch sensor, make sure that you set them up to operate on different channels and with different sensor numbers! Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection, update rate etc), use the PI Configurator utility.
Simrad PI32 Mounting Location: Attach the sensor on top of the cod-end where the catch is to be monitored. As the cod-end fills, the net’s meshes will open pulling the detector wires and thus activating the sensor. Sensor attachment to a net with an approximate mesh size of 140 mm. The distance between the anchor points for the attachment rings and rubber straps will vary according to mesh size and sensitivity required.
Sensors Sensitivity: The sensitivity of the Catch sensor is determined by the number of meshes separating the rubber straps. You can simulate this by stretching the net’s meshes to approximate the mesh opening estimated to trigger the sensor. Mark the location (with colored thread) for future references. Rubber straps: Inspect the rubber straps regularly and always before a new haul. Replace them if you detect visible signs of cracks or damage.
Simrad PI32 PS Catch sensor Purpose The PS Catch sensor detects when the trawl has been filled with fish. The sensor monitors the opening of the meshes in the cod end, and will be activated once the volume caught is enough to pull the detector wires. Catch sensor principle: Three sensors are mounted at the cod end of the trawl to detect the amount of fish caught.
Sensors Once installed and put to use, the sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts transmission of the detector wire (F) status (in or out). When the sensor is not in use, check that the sensor lamp (D) is not flashing from time to time, as this indicaties that the sensor is on and is discharging its batteries. In this case, wash the sensor in fresh water to remove salt and dirt.
Simrad PI32 Sensor configuration On delivery, all Catch sensors are configured in Channel 4 and with Normal update rate. If you use more than one Catch sensor, make sure that you set them up to operate on different channels and with different sensor numbers! Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection, update rate etc), use the PI Configurator utility.
Sensors Mounting Location: Attach the sensor on top of the cod-end where the catch is to be monitored. As the cod-end fills, the net’s meshes will open pulling the detector wires activating the sensor. Sensor attachment to a net with an approximate mesh size of 140 mm. The distance between the anchor points for the attachment rings and rubber straps will vary according to mesh size and sensitivity required.
Simrad PI32 PI Depth sensor Purpose The PI Depth sensor monitors the current depth of the net, as well as the rate of any depth changes. All measurements are related to the surface. (A) = Two Depth sensors are mounted to the ground rope to monitor the depth. (B) = One Bottom Contact sensor is mounted to the ground rope to detect if the net hits the bottom.
Sensors If you operate with Fast update rate, the sensor must be charged approximately every 24 hours. Used with Normal or Slow update rates, the operational life is approximately 75 or 150 hours respectively. The optimal sensor charging temperature is from +10 to +25°C. Note: Note that charging sensors at sub-zero temperatures can create explosive gasses. Simrad AS assumes no liability for the improper charging of sensors or the use of chargers not specified in Simrad’s sensor charging documentation.
Simrad PI32 Sensor configuration On delivery, all depth sensors are configured in Channel 16 (300 m), Channel 12 (600 m) or Channel 10 (1000 m) and with Fast update rate. If you use more than one sensor, you must set them up to operate in different channels. Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection), use the PI Configurator utility.
Sensors Mounting Purse seine: In order to secure stable communication with the vessel’s hydrophone, it is very important that the sensor is allowed to hang freely with the top end pointing towards the surface during shooting and pursing. Attach the sensor to a standard purse ring with two separate wires (A). Mount one end of each wire to a common snap hook (B), and place another snap hook at the other end of each wire to snap onto the sensor.
Simrad PI32 Tuna purse: The sensor must not be attached to the footrope wire, but to the foot-rope chain. Use a safety wire in addition in case the sensor is ripped off the net. Trawl or Danish seine: The depth sensor is normally attached to the headrope (A). For secure fastening and stable positioning of the sensor pointing towards the vessel, make a fine mesh bag (B) located at the centre of the headrope.
Sensors PS Depth sensor Purpose The PS Depth sensor monitors the current depth of the net, as well as the rate of any depth changes. All measurements are related to the surface. (A) = Two Depth sensors are mounted to the ground rope to monitor the depth. (B) = One Bottom Contact sensor is mounted to the ground rope to detect if the net hits the bottom.
Simrad PI32 You can only operate this sensor with Fast update rate, the sensor must then be charged approximately every 35 hours. The optimal sensor charging temperature is from +10 to +25°C. Note: Note that charging sensors at sub-zero temperatures can create explosive gasses. Simrad AS assumes no liability for the improper charging of sensors or the use of chargers not specified in Simrad’s sensor charging documentation.
Sensors Sensor configuration On delivery, all depth sensors are configured in Channel 16 (300 m), Channel 12 (600 m) or Channel 10 (1000 m) and with Fast update rate. It is not possible to change the update rate setting. If you use more than one sensor, you must set them up to operate in different channels. Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection), use the PI Configurator utility.
Simrad PI32 Mounting Purse seine: In order to secure stable communication with the vessel’s hydrophone, it is very important that the sensor is allowed to hang freely with the top end pointing towards the surface during shooting and pursing. Attach the sensor to a standard purse ring with two separate wires (A). Mount one end of each wire to a common snap hook (B), and place another snap hook at the other end of each wire to snap onto the sensor.
Sensors Tuna purse: The sensor must not be attached to the footrope wire, but to the foot-rope chain. Use a safety wire in addition in case the sensor is ripped off the net. Trawl or Danish seine: The depth sensor is normally attached to the headrope (A). For secure fastening and stable positioning of the sensor pointing towards the vessel, make a fine mesh bag (B) located at the centre of the headrope.
Simrad PI32 PI Height sensor Purpose The PI Height sensor monitors the current height of the trawl, as well as the rate of any height changes. All measurements are related to the bottom. (A) = The PI Height sensor is normally mounted on the headrope, and by means of the built-in echo sounder it will measure the distance to the bottom.
Sensors Daily operation Once installed and put to use, the Height sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts the echo sounder, and the depth results are transmitted to the vessel. When the sensors are not in use, check that the sensor lamp (D) do not flash from time to time, as this indicates that the sensor is on and is discharging its batteries. In this case, wash the sensor in fresh water to remove salt and dirt.
Simrad PI32 Sensor configuration On delivery, all Height sensors are configured in Channel 14 and with Fast update rate. Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection), use the PI Configurator utility. The sensor update rate controls how often the sensor reads and reports the height. Three settings are available. Note that a faster update rate will decrease the battery life.
Sensors Mounting Location: Place the sensor where you wish to monitor the height. This is normally aft of the headrope at the center of the net. Ensure that you mount the sensor with the reverse side (D) and the echo sounder transducer (E) pointing towards the bottom! The SIMRAD print on the sensor (C) must point up towards the water surface! Mounting: Secure the two forward fastening lugs (A) using two snap hooks and rope.
Simrad PI32 PI Rip sensor Purpose The PI Rip sensor is identical to the PI Catch, and it must be regarded as a second application for the Catch sensor. The PI Rip sensor will monitor if your net is damaged and ripped apart due to obstructions or foreign objects on the seabed. (A) = The PI Rip is mounted on the footrope with the two sensor wires stretched out and the wires engaged. (B) = Two strong rubber bands ensure that the sensor is activated.
Sensors Once installed and put to use, the sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor will detect the status of the detection wires, and transmit this information to the vessel. When the sensor is not in use, check that the sensor lamps (D) do not flash from time to time, as this indicates that the sensor is on and is discharging its batteries. In this case, wash the sensor in fresh water to remove salt and dirt.
Simrad PI32 Sensor configuration On delivery, all Rip sensors are configured in Channel 4 and with Normal update rate. If you wish to use Rip and Catch sensors simultanously, one of them must be set to a different communication channel. Note: The sensor and the PI32 system setup must correspond, otherwise the communication will not work. To change the sensor setup (channel selection), use the PI Configurator utility.
Sensors Mounting Location: Place the sensor where you wish to check the net condition. This is normally close to the footrope at the center of the net. If the net is torn, the slack will release one or both of the sensor’s detection wires. Rip sensor attachment to the net, location just aft of the footrope. The distance between the anchor points for the attachment rings and rubber straps must be defined depending on the size of the net and how large area you wish to monitor.
Simrad PI32 Attachment: The sensor’s orientation towards the vessel is maintained by the steel and nylon attachment rings. The number of meshes the attachment rings are supported between must be restricted to avoid unnecessary stress on the sensors fastening lugs. The use of both nylon and steel attachment rings is required to secure the sensor lugs if excessive forces are applied on them. The nylon rings will stretch or break down, but the steel ring will prevent the sensor from being lost.
Sensors PI Spread and Remote sensors Purpose The PI Spread and Remote sensors measure the physical distance between the trawl doors. Note: Each Spread sensor can be configured to communicate with one of two remote sensors; Remote 1 or Remote 2. Label the Spread sensor accordingly, and ensure that you only use the sensors in the correct pairs. (S) = The PI Spread sensor is mounted in a special adapteron the port trawl door.
Simrad PI32 Daily operation Once installed and put to use, the Spread sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts interrogating the Remote sensor to measure the distance. The results are transmitted to the vessel. When the sensors are not in use, check that the sensor lamps (D) do not flash from time to time, as this indicates that the sensor is on and is discharging its batteries.
Sensors Numerical presentation On the PI32 display, the distance between the trawl doors is displayed in the numeric display. If the distance is increasing or decreasing, this is shown with two arrows and the variation in meters per second. When the readings are stable, the digits are shown in black colour. When the values are predicted, the digits are grey, and if the contact is lost, the characters *.* * are shown in grey.
Simrad PI32 • Slow (~34 sec): Recommended to monitoring a stable situation over time, focus on door not falling over, broken sweep lines etc. during the tow. The system will be more sensitive to bad communication conditions due to slow data update. This mode provides longest operational battery life before charging. System configuration Sensor configuration: The sensor must be configured with a unique sensor number. Select channel number and update rate according to the sensor’s configuration.
Sensors Top view: (A) = Starboard door (B) = Port door (C) = Communication link to vessel’s hydrophone (D) = Angle of attack (E) = Direction of tow (F) = Transverse communication link (R) = PI Remote sensor in its adapter (S) = PI Spread sensor in its adapter Sacrificial water switch sensor If the water switch on your sensor is a sacrificial brass screw, this screw must be checked every month. Whenever required due to wear and tear, the screw must be replaced.
Simrad PI32 PI Twin Spread Purpose The PI Twin Spread is used with two Remote sensors to measure the physical distance between the trawl doors during twin trawl operations. (A) = The PI Twin Spread sensor communicates with the PI system on the vessel. (B) = The PI Twin Spread sensor is mounted on the port trawl door. (C) = One PI Remote sensor is mounted on the center clump. (D) = One PI Remote sensor is mounted on the starboard trawl door. 128 857-164636 / Rev.
Sensors Main parts (A) = Negative charging and fastening lug (B) = Positive charging and fastening lug (C) = Communication link to the vessel (D) = Location of sensor lamp (rear side of PI Twin Spread) (E) = Water switch sensor (F) = Transverse communication links to the two Remote sensors Daily operation Once installed and put to use, the Twin Spread sensor will automatically be switched on once the waterswitch is activated.
Simrad PI32 Numerical presentation On the PI32 display, the distances between the trawl doors are displayed in the numeric display. Two rectangles are used, one for each distance. If the distance is increasing or decreasing, this is shown with two arrows and the variation in meters per second. When the readings are stable, the digits are shown in black colour. When the values are predicted, the digits are grey, and if the contact is lost, the characters **.* are shown in grey. The characters ±±.
Sensors Sensor configuration You can operate two sets of Twin Spread sensors, these sets are identified as Twin Spread 1 and Twin Spread 2. Twin Spread 1 uses two Remote sensors: Remote 1 and 2. Twin Spread 2 uses two Remote sensors: Remote 2 and 4. On delivery, all Twin Spread sensors are configured as Twin Spread 1 in Channels 2 and 5, with Fast update rate, and for use with Remote sensors 1 and 3.
Simrad PI32 Mounting The Spread and Remote sensors must be mounted in special adapters on each trawl door and on the centre clump. These adapters must be installed aforehand. Detailed information on how to install the adapters are provided with the installation kit. Installation principle The PI Twin Spread sensor is mounted on the port door. One PI Remote sensor is mounted on the center clump, while the other Remote sensor is mounted on the starboard door.
Sensors PI Temperature sensor Purpose The PI Temperature sensor monitors the current water temperature at the chosen location on the purse seine or trawl. (A) = The sinking rate of the net is monitored by two Depth sensors (B) = One Temperature sensor is mounted on the footrope to monitor the location of the thermo-cline. (C) = One Temperature sensor is mounted on the headrope to monitor if the sea water temperature is favourable for the target species. 857-164636 / Rev.
Simrad PI32 Main parts (A) = Negative charging and fastening lug (B) = Positive charging and fastening lug (C) = Communication link (D) = Location of sensor lamp (E) = Water switch sensor (F) = Temperature sensor (label is removed) Daily operation Once installed and put to use, the sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts transmission of the current temperature.
Sensors Temperature presentation On the PI32 display, the temperature is displayed in the numeric display. If the temperature is falling or rising, this is shown with an arrow. When the readings are stable, the digits are shown in black colour. When the values are predicted, the digits are grey, and if the contact with the sensor is lost, the characters *.* * are shown in grey. (A) = Sensor set up as sensor no.2. (B) = Current temperature.
Simrad PI32 System configuration Sensor configuration: The sensor must be configured with a unique sensor number. Select channel number according to the sensor’s configuration. Write down the configuration for future reference. Status & Receiver: The Interference filter must be switched on. Set it to level 9 if you have noise problems from other hydroacoustic sources. Note that with the filter on, it will influence the signal spectrum shown in the Status display.
Sensors Mounting Purse seine: In order to secure stable communication with the vessel’s hydrophone, it is very important that the sensor is allowed to hang freely with the top end pointing towards the surface during shooting and pursing. Attach the sensor to a standard purse ring with two separate wires (A). Mount one end of each wire to a common snap hook (B), and place another snap hook at the other end of each wire to snap onto the sensor.
Simrad PI32 Tuna purse: The sensor must not be attached to the footrope wire, but to the foot-rope chain. Use a safety wire in addition in case the sensor is ripped off the net. Trawl or Danish seine: The sensor is normally attached to the headrope. For secure fastening and stable positioning of the sensor pointing towards the vessel, make a fine mesh bag sized to the middle of the head-rope.
Sensors PS Temperature sensor Purpose The PS Temperature sensor monitors the current water temperature at the chosen location on the purse seine or trawl. (A) = The sinking rate of the net is monitored by two Depth sensors (B) = One Temperature sensor is mounted on the footrope to monitor the location of the thermo-cline. (C) = One Temperature sensor is mounted on the headrope to monitor if the sea water temperature is favourable for the target species. 857-164636 / Rev.
Simrad PI32 Main parts (A) = Negative charging and fastening lug (B) = Positive charging and fastening lug (C) = Communication link (D) = Location of sensor lamp (E) = Water switch sensor (F) = Temperature sensor (label is removed) Daily operation Once installed and put to use, the sensor will automatically be switched on once the waterswitch is activated. After an initial startup, the sensor starts transmission of the current temperature.
Sensors Temperature presentation On the PI32 display, the temperature is displayed in the numeric display. If the temperature is falling or rising, this is shown with an arrow. When the readings are stable, the digits are shown in black colour. When the values are predicted, the digits are grey, and if the contact with the sensor is lost, the characters *.* * are shown in grey. (A) = Sensor set up as sensor no.2. (B) = Current temperature.
Simrad PI32 Mounting Purse seine: In order to secure stable communication with the vessel’s hydrophone, it is very important that the sensor is allowed to hang freely with the top end pointing towards the surface during shooting and pursing. Attach the sensor to a standard purse ring with two separate wires (A). Mount one end of each wire to a common snap hook (B), and place another snap hook at the other end of each wire to snap onto the sensor.
Sensors Tuna purse: The sensor must not be attached to the footrope wire, but to the foot-rope chain. Use a safety wire in addition in case the sensor is ripped off the net. Trawl or Danish seine: The sensor is normally attached to the headrope. For secure fastening and stable positioning of the sensor pointing towards the vessel, make a fine mesh bag sized to the middle of the head-rope.
Simrad PI32 SENSOR CHARGERS Overview Two different battery chargers can be used to charge the PI and PS sensors: • PI Charger • PS30 Charger Even though both chargers can be used to charge any of the sensors (except the PI Height sensor), only the PI Charger will provide fast and intelligent charging of the PI sensors. Note: The PI Height sensor can only be charged with the PI Charger. Topics 144 → PI Charger, page 145 → PS30 Charger, page 147 857-164636 / Rev.
Sensor chargers PI Charger Purpose The PI Charger is an intelligent battery charger for fast and secure charging of the PI sensors. The charger will automatically set up the correct charging current depending on the sensor type and the battery temperature. Even though the PI Charger is designed for fast charge of the PI sensors, it can also charge the PS sensors, but only at normal charge rate. A fuel meter shows the status of the battery during the charge.
Simrad PI32 Indicators (A) = Mains: 12 to 32 Vdc (B) = Fuel meter. The number of LEDs illuminated shows the current charging status. A complete charging cycle is indicated with all “full” battery. Charging: Fast: Fast flash Normal: Slow flash Trickle: On, off every 4 second (C) = Battery temperature indicators during fast charging: Green: Battery temperature between +5 and +40°C. Fast charge is enabled. Green and Blue: Battery temperature between 0 and +5°C. Fast charge is disabled, normal charge is used.
Sensor chargers PS30 Charger Purpose The PS Charger is a battery charger for secure charging of the PS and PI sensors. Daily operation 1) Attach the charging clamps to the sensor as follows: Red clamp: Positive fastening lug (+) Black clamp: Negative fastening lug (-) 2) Ensure that attachment materials, rope etc. does not short circuit the charging lugs, preventing charging and causing damage to the sensor lugs. 3) Observe the sensor’s indiactor lamp.
Simrad PI32 General guidelines Operational time and service life of the sensor’s NiCd battery depends on proper use and regular charging. Observe the following precautions, as these will have an influence on the battery performance: • Observe the charging temperatures. • Charge sensors regularly. Avoid draining the sensor battery completely before charging. • Charge the sensor battery before storage, and at three-month intervals under long-term storage.
Menu system MENU SYSTEM The PI32 is controlled using a small meny system. Although several shortcuts exist, the main functions and setup parameters can be accessed from the main menu. To access the main menu, press the MENU button. Topics → 857-164636 / Rev.
Simrad PI32 The main menu To access the main menu, press the MENU button. Fishery On the Fishery menu, you can select display modes related to catch monitoring. → Numeric display, page 28 → Graphic display, page 35 → Surface temperature, page 37 → Status display, page 38 Navigation On the Navigation menu, you can select display modes related to vessel navigation.
Menu system 857-164636 / Rev.
Simrad PI32 REFERENCES This chapter contains reference information. It thus provides detailed information about the various parameters used to control the operation and performance of the PI32 system. You do not need to read and understand thic chapter to operate the PI32, but the information may guide you to a more efficient use. The setup pages are provided in alphabetical order. Some are accessed from the Setup menu, others directly from the display presentations by means of the ADJ button.
References Depth calibration This function is used to enable calibration of the PI32 Depth sensor. To access this function, press the MENU button to open the main menu. Then, open the Setup menu, and select Sensor alarm/calibration. The Depth calibration feature will calibrate the current depth of the Depth sensor to one -1- meter. 1 Lower the sensor over the side to a depth of one meter, to a certain draft depth plus one meter, or to any reference level that you wish to be defined as one meter.
Simrad PI32 Echo presentation setup These settings are used to set up the echo sounder presentation parameters on the PI32. The operational parameters are set up using the Echo sounder setup dialogue. To access the parameters, press the ENT button when you have an echo sounder presentation on the screen. Range start: This is the upper depth from which you wish the echo sounder shall start.
References TVG (Time Varying Gain): The PI32 provides a TVG function to enhance the echoes from deeper waters. You can select either Bottom (20 log R) or Fish (40 log R) setting, depending on which echoes you wish to enhance. Sound speed: This parameter allows you to fine tune the performance of the PI32 echo sounder to the speed of sound in the water. However, in most cases, the speed is not known, and this parameter is not important at all when operating in shallow waters.
Simrad PI32 Note: The echo sounder frequency you choose must be supported by the transducer you have installed! Related topics 156 → How to define the echo sounder range, page 72 → Echosounder setup, page 157 → Graphic setup, page 160 → Bottom expansion, page 41 857-164636 / Rev.
References Echo sounder setup These settings are used to set up the operational parameters for the PI32 echo sounder. To access dialogue, press the MENU button to access the main menu. Then, select Echo sounder setup on the Echo menu. Note that the presentation parameters are defined in a separate dialogue; the Presentation setup.
Simrad PI32 Depth for fish: This parameter allows you to define a vertical depth area (between a maximum and a minimum depth) in which the fish alarm can be triggered. Echoes outside the chosen area will not trigger the alarm. Depth alarm (minimum and maximum values): This parameter enables an alarm to sound off if the water depth is shallower or deeper than two predefined limits. Transmitter: This parameter allows you to change the power output from the echo sounder.
References Factory presets This function allows you to restore the PI32 parameters to the default settings chosen by Simrad. To access this function, press the MENU button top open the main menu. Open the Setup menu, and select Master reset. Once accessed, you must first press the selector pad up, then down, and finally the ENT key. The PI32 restarts automatically, and once it has passed the welcome screen it will automatically ask to have the sensors set up.
Simrad PI32 Graphic setup These settings are used to set up the PI32 parameters related to the Graphic display. To access the parameters, press the ENT button when you have a Graphic display on the screen. Superimpose echo sounder: When activated, the presentation from the echo sounder is added to the graphic display. Note that this option is only valid if you have the echo sounder transducer(s) installed, and the echo sounder is set up for normal operation. You can only switch this function on or off.
References Marker line: Certain sensors will provide information that can be superimposed on the graphic display. This parameter allows you to switch up to three marker lines on and off. The identifications S1 to S3 relate to sensors 1, 2 and 3, and if the sensor in question does not provide information that can be superimposed, the related switch can not be switched on.
Simrad PI32 Interface setup NMEA These settings are used to set up the PI32 parameters related to the communication to and from peripheral units. To access the parameters, press the MENU button to access the main menu. Then, select Interface setup NMEA on the Setup menu. Background By means of the connectors on the rear side of the PI32 cabinet, it can communicate with several peripheral devices. This is useful, as it allows you to export and import information to and from these devices.
References Input By default, the PI32 is only equipped with one NMEA interface connector. For this reason, you can only receive data from one peripheral device. However, this device may provide you with more than one type of information. For example, GPS systems will provide you with position, course, speed and navigational information, and these telegrams are transmitted sequentially on the same serial line using different telegram types.
Simrad PI32 Output The PI32 is only equipped with one NMEA connector, but you can still export several information types, as these will be transmitted sequentially using different telegram types. Whether this information can be accepted and interpreted on your peripheral device(s) at the other end of the cable depends on the functionality of this device. DBK On/Off: The PI32 will export the current depth below keel if you switch this parameter on.
References Applicable telegram formats The following NMEA telegram formats are used by the PI32. APB = Autopilot Sentence ”B”. The information provided includes Status, Cross track error magnitude, Direction to steer, Cross track units, Bearing origin to destination, Destination waypoint identification, Bearing, and Heading to steer. DBK = Depth below keel. The information provided includes the depth in meters, fathoms and feet. DBS = Depth below surface.
Simrad PI32 VTG = Track made good and Ground speed. The information provided inludes Track degrees (true and magnetic) and Speed (in knots and kilometers per hour). XTE = Cross-Track Error, Measured. The information provided inludes Status, Cross track error and Direction to steer. 166 857-164636 / Rev.
References Interface setup remote/alarm The PI32is equipped with only one NMEA interface port, but the Remote interface can also be used for NMEA interface provided that the remote display is not used. This setup page is used to define the inputs and outputs if the Remote interface is used as an NMEA port. Position: Select which telegram you wish to use to receive position data; either GLL, RMA, RMC or GGA. Then, switch the interface on or off.
Simrad PI32 Navigation setup These settings are used to set up the PI32 parameters related to the navigation display presentation. To access the parameters, press the ENT button when you have the navigation display in view. Course & bearing as: Select True or Magnetic reading. XTE alarm distance: Define how large crosstrack error the PI32 can accept before the alarm is triggered. Related topics → 168 Navigation display, page 43 857-164636 / Rev.
References Numeric setup These settings are used to set up the PI32 parameters related to the Numeric display. To access the parameters, press the ENT button when you have the Numeric display presentations in view. Data window 1/2/3: Select which sensor data to appear in the three numeric presentations. Show graphic alarm: The graphic alarm is the small red triangle in each sensor presentation. If the triangle is lit, it indicates an alarm situation.
Simrad PI32 Offset adjust These settings are used to set up offset values for the Depth and Spread sensors. To access the parameters, press the MENU button to open the main menu. Then, open the Setup menu and select Sensor alarm/calibration. When accessed, this dialogue will only display the Depth and Spread sensors currently configured. Offset adjustments can be only be made on the listed sensors. Enter a negative or positive value to decrease or increase all readings from the chosen sensor.
References Page setup These settings are used to set up the PI32 parameters related to the page; automatic page rotation and menu language. To access the parameters, press the MENU button to access the main menu. Then, open the Setup menu and select Speed alarm, units & language. WIN change interval: The feature will make the PI32 leaf through its four pages automatically. This parameter can turn the function on or off.
Simrad PI32 Palette setup These settings are used to set up the PI32 parameters related to presentation colours. The information provided by the PI32 can be presented using one out of nine palettes. In each palette, the text and background colours are defined. Seven of the palettes are user defined, and you can make your own preferences. To access the Palette setup, press the Menu key, and select Setup. On the submenu, select Display colour. To leaf through the palette pages, use the + and - buttons.
References Position display setup These settings are used to set up the PI32 parameters related to the position display presentation. To access the parameters, press the ENT button when you have the Position display in view. Log 1/2: Use this parameter to reset the two distance logs. Related topics → 857-164636 / Rev.
Simrad PI32 Receiver setup These settings are used to establish the communication parameters between the PI32 and the sensors. To access the parameters, select Sensor config & receiver setup on the Setup menu. The Receiver setup parameters have a major influence on the PI32 performance. The default settings are those we have found to be the best for general use, but for individual installations optimized settings may enhance the performance.
References Sensor filter: The PI32 is designed to quickly update data. After the sensors have been submerged, the receiver requires only three consecutive pings from individual sensors to calculate and display their respective information. However, if you experience problems with the reception, you may also try this filter: it will average the data received from the sensors.
Simrad PI32 detection error disappears. Check that the signals from the sensor in use are still being received, if they are not, the filter will not be of help in this particular situation. The filter’s effectiveness is both location and net specific. Therefore, the same parameters will not necessary work in different areas or using various types of nets. Default setting is 42 dB. Detection Threshold (DT): This function will inhibit reception of the weakest signals.
References Sensor alarms These settings are used to set up the PI32 parameters related to sensor alarms. To access the parameters, press the MENU button to open the main menu. Then, open the Setup menu, and select Sensor alarm/calibration. Each sensor has an individual alarm setting, and you can also trigger alarms to warn you about sudden temperature changes and shallow water. Whenever an alarm is triggered an audible signal is provided, and a message on the display presents the cause of the alarm.
Simrad PI32 Clearance pre-warning: These alarms are used to warn you if a trawl or another towed object either moves too close to the bottom, or lifts too far off the bottom. You must have the echo sounder switched on to use this alarm. To enable it, set the minimum limit to the minimum allowed distance between the footrope and the bottom, and/or the maximum limit to the maximum allowed distance between the footrope and the bottom. Then, switch one or both alarms to ON.
References Sensor setup These parameters are used to establish communication between the PI32 and the sensors. To access the parameters, press the MENU button to open the main menu, Then select Sensor setup on the Setup menu. Note: In order to set up these parameters correctly, you need to know what kind of sensors you have, how often the provide information updates, and on which channels they communicate. A form has been provided in the front of this book to write down this information.
Simrad PI32 Speed setup These settings are used to set up the PI32 parameters related to speed. To access the parameters, press the MENU button to access the main menu. Then, select Speed alarm, units & language on the Echo menu. LOG speed sensor: The PI32 may be interfaced to an external speed log. Use this parameter to enable or disable the input from this device.
References Surface temperature setup These settings are used to set up the PI32 presentation parameters related to the surface temperature presentation. To access the parameters, press the ENT button when you have a Surface temperature display in view. Temperature scale max/min: Use these settings to define the maximum and minimum values in your temperature scale. Temperature grid: When enabled, this function places horizontal grid lines in the temperature graph to make it easier to read the data.
Simrad PI32 Trawl info setup These settings are used to set up the PI32 parameters related to the trawl presentations on the Graphic display. When enabled, marker lines providing trawl depth information will be superimposed on the display. To access the parameters, press the ENT button when you have a graphic display in view. Headrope sensor: This setting defines which sensor that is placed on the headrope. Footrope sensor: This setting defines which sensor that is placed on the footrope.
References Units setup These settings are used to set up the PI32 parameters related to units. To access the parameters, press the MENU button to access the main menu. Then, select Speed alarm, units & language on the Setup menu. Select the units you wish to use on the various data. These parameters are self explanatory. 857-164636 / Rev.
Simrad PI32 PI CONFIGURATOR Purpose The purpose of the PI Configurator utility is to be able to configure sensors so that they can operate on different communication channels. Several PI equipped vessels may then operate simultaneously in the same area without interference. The utility also allows you to change the update rate on each sensor. This is the time elapsed between each data transmission from the sensor to the host PI system. This document describes software version 3.40.
PI Configurator Basic information Default sensor settings PI and PS sensors are delivered from Simrad configured with common default settings. When required, the individual sensors may be re-configured with regard to: • • • • • • Communication channel LED control Ping control Data Update rate Remote Show channel with LED flash at start up Who can configure PI sensors? Sensor configuration is normally performed by authorized Simrad technicians.
Simrad PI32 Available equipment The following is available from Simrad: • User Guide (857-164924) • Software (889-204037) • Programming cable for stationary PCs (380-204624) • Programming cable for portable PCs (380-208429) • Service hydrophone (314-204480) The configuration equipment is also is available in kits: • KIT 1, User guide and software (KIT-208780) • KIT 2, User guide, software and programming cable for stationary PC (KIT-208781) • KIT 3, User guide, software and programming cable for portable
PI Configurator About sensor configuration All sensors are provided from the factory with pre-defined communication channels and update rates. Sensor Com.
Simrad PI32 Changing the update rate It may be required to change the update rate on a sensor, that is how often it sends information back to the PI Configurator system. A high update rate will give frequent information updates, but the sensor will use more battery power. If you need your batteries to last as long as possible, you must consider lowering the update rate. • A low update rate will provide you with fewer information updates, but the battery will last very long.
PI Configurator Main dialogue description Observe the illustration and descriptions below. Note that the apperance of function buttons will differ depending on the sensor type connected to the application. When functions are unavailable, the fields are identified accordingly with a shaded appearance.
Simrad PI32 ID Button/Function Use 4 Terminate communication Click to disconnect the sensor from the PC. 5 Message field Displays program and sensor data. 6 Communication channel Select channel number to be uploaded to the sensor. If a Twin Spread sensor is connected, two communication channels must be defined. 7 LED control Click and drag the slider bar to control the behaviour of the sensor’s internal LED.
PI Configurator Operational procedures Observe the following procedures. 857-164636 / Rev.
Simrad PI32 Software installation Observe the following procedure to install the PI Configurator software on a stationary or portable computer. Note that the computer must have either Microsoft WindowsE 2000 or Microsoft WindowsE XP operating system. You must also have the Winzip utility installed on your computer. if this is not the case, it can be dowloaded from www.winzip.com. Note: Note: Certain anti virus applications may cause the installation process to fail.
PI Configurator How to interface the sensor Before you can configure the sensor, you need to connect it to the computer. Observe the procedure below. 1 Start the PI Configurator utility. 2 Plug the programming cable into one of computer’s COM ports (COM1 is recommended). 3 Ensure that the sensor to be connected is switched off. Check that the internal LED does not flash, and that the sea water switch is not activated in any way.
Simrad PI32 How to perform basic configuration Once the sensor is connected to the computer, and you have established communication, you can use the PI Configurator utility to change the basic sensor parameters. 194 1 Click the Read Senor Data button. - Observe that the current sensor configuration parameters are displayed in the message field. The information includes sensor type, channel number, and the sensor’s software version.
PI Configurator How to configure a Twin Spread system This procedure describes hot to set up a Twin Spread system using one Twin Spread sensor and two Remote sensors. Setting up the Twin Spread sensor 1 Connect the Twin Spread sensor to the PI Configurator. 2 Press Establish communication with Sensor. - Observe that the current sensor configuration parameters are displayed in the message field. The information includes sensor type, channel number, and the sensor’s software version.
Simrad PI32 Setting up the second Remote sensor 196 1 Connect the second Remote sensor to the PI Configurator. 2 Press Establish communication with Sensor. - Observe that the current sensor configuration parameters are displayed in the message field. 3 Use the spin box next to the Number label to define the sensor’s number in the Twin Spread system. - The number you choose MUST match the other number chosen in step 5 in the Twin Spread sensor setup.
PI Configurator How to upload factory settings Once the sensor is connected to the computer, and you have established communication, you can use the PI Configurator utility to upload the applicable sensor’s factory settings. 857-164636 / Rev.A 1 Click the Read Senor Data button. - Observe that the current sensor configuration parameters are displayed in the message field. The information includes sensor type, channel number, and the sensor’s software version.
Simrad PI32 References The features available when using PI Configurator software depend which mode it is in (Standard or Professional) and the type of sensor that is interface. All commands are described here, and they are listed in alphabetical order.
PI Configurator Communication Channel This parameter allows you to redefine the sensor’s transmission channel (1 to 30). Sensors send information using specific frequencies, each designated as an individual channel. PI and PS sensors have 30 channels to choose from, and the FA701 sensors have four. The frequency range of these channels are of from 43.5 to 49.5 kHz for PI and PS systems, and 70 to 80 kHz for FA710 systems. Note: This is a key parameter.
Simrad PI32 Communication Port Setup This button opens the Com Port Setup dialogue. The integrated slider bar is used to designate which COM port (COM1 to COM8) the programming cable is plugged into. COM1 is the factory default setting and recommended parameter. Operation To operate, click the Communication Port Setup button to open the Com Port Setup dialogue box. Click on the desired port, or use the slider bar to select. Click OK to save and exit.
PI Configurator Configure Sensor This button is used to re-program the currently interfaced sensor with the new parameters selected (those presently displayed). This operation can not be “undone” however, the sensor’s previous status information and parameter configuration is still available in the main dialogue box and may be re-entered if necessary. Operation To operate, click the Configure Sensor button to program the sensor with the new parameters shown on the screen.
Simrad PI32 Data Update Rate This parameter is used to select an interfaced sensor’s data update rate. Note: This is a key parameter. Unless the data update rate defined in the sensor matches the rate defined on the host PI system, the communication will not work! The data update rate is the time interval between individual transmissions from the sensor containing measurement data. The rate selected must match the corresponding setting in the PI Cabinet’s Setup window.
PI Configurator Establish Communication With Sensor This button initiates contact between the computer and a well charged sensor by sending it a ”wake-up” command. Once two-way communication is established the following occurs: • The indicator lamp (in the lower right-hand corner of the dialogue) will be turned on and off every two seconds. • The LED inside the interfaced sensor will illuminate every two seconds. • The sensor will download its current configuration data to the PC.
Simrad PI32 Factory Default This button is used to restore a sensor’s factory default values, according to the type of sensor currently interfaced. Factory default settings include: • • • • • • Sensor Communication Channel LED control Ping control Data Update rate Remote Show channel with LED flash at start up Operation To operate, click the Factory Default button to select the original factory default settings.
PI Configurator Help This button opens the on-line Help. The on-line help include general information concerning the use of PI Configurator software and sensor interface. To operate, click the Help button to open the on-line help. To access context sensitive help, click the right mouse button over a given button or parameter. This will open a help window with specific information concerning the parameter or button the cursor is located over. 857-164636 / Rev.
Simrad PI32 Language This button opens the Language dialogue. The dialogue allows you to select operational language by clicking on one of the flag icons. Clicking an icon will convert the PI Configurator’s buttons, information, help functions and interfaced sensor data to the respective language. Operation To operate, click the Language button to open the dialogue. Click on the desired icon to select language, or click Cancel to close the dialogue without replacing the present language in use.
PI Configurator LED Control This parameter can only be accessed in the Professional mode. The dialogue box is used to control the behaviour of the interfaced sensor’s internal LED during normal operation. LED behaviour in both the charge and communication modes can not be altered. Sensor LED parameters are: • Startup Only - The LED will only illuminate (flashing its identification code) when it is energized. It will not be turned on during normal operation.
Simrad PI32 Message field This message field displays present and past configuration data, communication status, error messages and other information. Configured parameters can not be “undone” however, the previous parameter configuration is still available in the main dialogue box and may be re-entered if necessary. Each time the Configure Sensor button is clicked, the message field will be automatically updated.
PI Configurator Number This box allows you to define the identification number for the currently connected Remote sensor. This is a key parameter when you set up a Twin Spread system. Related topics → 857-164636 / Rev.
Simrad PI32 Ping control This parameter is only available for depth sensors, and can only be accessed in the Professional mode. The dialogue box is used to control when a sensor will “ping” (transmit an acoustic signal). For example, it is possible to disable the sensor from being inadvertently activated when lying in a wet net on deck (a depth of less than two meters) to prolong its battery life. The available parameters are: • Always - The sensor will “ping” at all depths during normal operation.
PI Configurator Quit Click this button to close the PI Configurator utility. 857-164636 / Rev.
Simrad PI32 Read Sensor Data This button requests that configuration data be sent from the interfaced sensor to the PC. When the Read Sensor Data button is clicked, the sensor will download information to the PC. This data is then used to populate the message field just as when the Establish Communication with Sensor button is clicked. Operation To operate, click the Read Sensor Data button.
PI Configurator Remote This parameter is only available for Spread, Twin Spread and Remote sensors. The dialogue box allows selection of the channels used to communicate between Spread and the Remote sensors. Note: These are key parameters when you work with Spread and Remote sensors. Make sure the correct channels are selected for all the sensors. Should incorrect parameters be chosen, the sensors will not be able to communicate with each other, and the PI Operator Unit will display “± ± ±”.
Simrad PI32 Sensor Type This parameter is to be configured in accordance with the sensor’s label and can only be accessed in the Professional mode. The dialogue box is used to select which of the sensor’s internal programs to run when activated. When using the PI Configurator in the Standard mode, it will only display the type of sensor interfaced. It is not possible to change a sensor’s type.
PI Configurator Serial number This text box displays the interfaced sensor’s serial number. It can not be re-configured. This feature is not available for PS sensors. 857-164636 / Rev.
Simrad PI32 Show Channel At Startup This dialogue box controls weather or not the interfaced sensor will flash a channel identification code using its internal LED when first energized. When Enabled is selected, the sensor will flash its presently configured communication channel number at startup when in the normal mode (not in the charge or communication modes). This feature may also be activated by touching a sensor’s lid and charging lug simultaneously.
PI Configurator Examples Example of channel number 16 at startup (below): (1) = A one second “long flash” (2) = A start ”flash” (3) = One “quick flash” (first digit of 16 is 1) (4) = A start ”flash” (5 - 10) = Six ”quick flashes” (second digit of 16 is 6) Normal operation starts Example of channel 2 at startup (below): (1) = A one second flash (2) = A ”start-flash” (3) = No short flashes (first digit of 02 is 0) (4) = A ”start-flash” (5 - 6) = Two short flashes (second digit of 02 is 2) Normal operation
Simrad PI32 Terminate Communication Press this button to terminate the serial data flow between the sensor and the computer. Operation Press the button to terminate the communication, then disconnect the cable. If you disconnect the cable before you terminate the data flow, the PI Configurator will issue a error message. 218 857-164636 / Rev.
PI Configurator Maintenance This chapter contains information related to maintenance, setup and troubleshooting. Topics 857-164636 / Rev.
Simrad PI32 Programming modes Available modes The PI Configurator utility has two programming modes: • Standard - default mode, described in this manual. • Professional - for use by Simrad personnel only. Caution: The use of PI Configurator software in the Professional mode is for qualified Simrad personnel only. Improper use of PI Configurator software in the Professional mode can cause permanent, irreparable damage to sensors. It must therefore never be activated by unqualified personnel.
PI Configurator Making a programming cable Should a Simrad programming cable not be available, it is possible to make an adequate substitution as described below. It is only possible to make programming cables for stationary computers. If you wish to use a portable computer the cable must be ordered from Simrad. Some new stationary computers have been found to provide the same output specifications as portable computers using lower voltage on the serial line.
Simrad PI32 Troubleshooting Most problems are easily solved. Troubleshoot interface, configuration or other complications by checking the following: • The interfaced sensor is sufficiently charged. • The correct PI sensor programming cable is used and in good condition • The PI sensor programming cable is connected to the PC’s COM port correctly. • The PI sensor programming cable is connected to the sensor correctly.
Sensor test procedures SENSOR TEST PROCEDURES Overview Using the PI Configurator application, you can test the operational status of each sensor. In the following, you will find the test procedures. Note that PI and PS sensors are tested using the same procedures.
Simrad PI32 Bottom Contact test procedure Tools and equipment required • • • • Multimeter A small piece of wire PI Service Hydrophone (Order no. 314-204480) PI System Initial check and setup identification Keep the area between the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths.
Sensor test procedures (4) = A second start flash: This signals that the second digit of the channel number is next. (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. 3 Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B). - With the initial sea water switch and a a fully charged battery, the current should not exceed 150 µA.
Simrad PI32 4 Note: Note: 226 Switch off the PI system’s interference filter, and observe the numeric display. - If the interference symbol is not displayed, leave the interference filter switched off to increase the system’s range and performance. Should any problems arise during this procedure, check that the communication channel and update rate has been configured correctly. 5 Check that the information from the sensor is displayed on the PI.
Sensor test procedures Catch sensor, test procedure Tools and equipment required • • • • Multimeter A small piece of wire PI Service Hydrophone (Order no. 314-204480) PI System Initial check and setup identification Keep the area bteween the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths.
Simrad PI32 (3) = None, one, two or three short flashes: The number of short flashes signifies the first digit of the configured channel number. (4) = A second start flash: This signals that the second digit of the channel number is next. (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. 3 Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B).
Sensor test procedures - Note that the weight of the sensor in water (approximately 1.4 kg) may not provide sufficient resistance to trigger the sensor function when the detector wirer are pulled. Apply extra weight if required. 4 Note: Note: 857-164636 / Rev.A Turn off the PI system’s interference filter, and observe the numeric display. - If the interference symbol is not displayed, leave the interference filter switched off to increase the system’s range and performance.
Simrad PI32 Depth sensor, test procedure Tools and equipment required • Multimeter • A small piece of wire • PI System Initial check and setup identification Keep the area between the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths. 1 Using a multimeter, check the voltage between the negative charging lug (A) and the water detector (B).
Sensor test procedures (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. 3 Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B). - With the initial sea water switch and a a fully charged battery, the current should not exceed 150 µA. - With a redesigned sea water switch (sacrificial bolt) and a a fully charged battery, the current should not exceed 67 µA.
Simrad PI32 Note: 8 Switch the PI32 interference filter on and off, and observe the numeric display. If the interference symbol is not shown when the filter is off, leave the interference filter switched off to increase the system’s range and performance. 9 Use a water-proof pen, write the sensor’s number, configured channel number and any other pertinent information on its label. - A dedicated form has also been provided in the front of the PI Operator Manual to record this information.
Sensor test procedures Height sensor, test procedure Tools and equipment required • • • • Multimeter A small piece of wire A reference echo sounder PI System Initial check and setup identification Keep the area between the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths. 1 2 Using a multimeter, check the voltage between the negative charging lug (A) and the water detector (B).
Simrad PI32 3 (4) = A second start flash: This signals that the second digit of the channel number is next. (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B). - With the initial sea water switch and a a fully charged battery, the current should not exceed 150 µA.
Sensor test procedures Note: 857-164636 / Rev.A 9 Switch the PI32 interference filter on and off, and observe the numeric display. If the interference symbol is not shown when the filter is off, leave the interference filter switched off to increase the system’s range and performance. 10 Use a water-proof pen, write the sensor’s number, configured channel number and any other pertinent information on its label.
Simrad PI32 Spread & Remote sensors test procedure Tools and equipment required • • • • Multimeter A small piece of wire PI Service Hydrophone (Order no. 314-204480) PI System Initial check and setup identification On both sensor types, keep the area between the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths.
Sensor test procedures 3 (4) = A second start flash: This signals that the second digit of the channel number is next. (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B). - With the initial sea water switch and a a fully charged battery, the current should not exceed 150 µA.
Simrad PI32 Lower the two sensors as shown, and make sure that the Spread sensor’s head points towards the vessel’s hydrophone (C). Also, make sure that there is a free line of sight for the transverse communication (D). 5 On the PI numeric display, verify that the reading is +++. - This signifes that there is no communication between the Spread and Remote sensors. 6 Lower the Remote sensor (B) over the opposite side of the vessel with its head pointing in the same direction as the Spread sensor.
Sensor test procedures 10 Note: 857-164636 / Rev.A Use a water-proof pen, write the sensor’s number, configured channel number and any other pertinent information on its label. - A dedicated form has also been provided in the front of the PI Operator Manual to record this information. Do not write on the sensor! Such information may be misunderstood when future service or replacement is performed.
Simrad PI32 Temperature sensor, test procedure Tools and equipment required • • • • • Multimeter A small piece of wire PI Service Hydrophone (Order no. 314-204480) Waterproof thermometer PI System Initial check and setup identification Keep the area between the negative charging lug (A) and the water detector (B) clean to reduce the risk of activating the sensor. If necessary, apply silicon grease to disrupt conductive paths.
Sensor test procedures 3 (3) = None, one, two or three short flashes: The number of short flashes signifies the first digit of the configured channel number. (4) = A second start flash: This signals that the second digit of the channel number is next. (5) = None to nine short flashes: The number of short flashes signifies the second digit of the configured channel number. Using a multimeter, check the DC current between the negative charging lug (A) and the water detector (B).
Simrad PI32 Note: Note: 242 Should any problems arise during this procedure, check that the communication channel and update rate has been configured correctly. 6 Check that the PI system’s displayed temperature corresponds with the value from the reference thermometer. 7 Switch on the vessel’s echo sounders and other hydroacoustical equipment used during normal fishing operations. 8 Switch the PI32 interference filter on and off, and observe the numeric display.
Technical specifications TECHNICAL SPECIFICATIONS This chapter provides the basic technical specifications. Topics → 857-164636 / Rev.
Simrad PI32 Sensors Specifications can be altered without prior notification. PI Bottom Contact • PI System: PI32, PI44 or PI54 • Update rates: - Fast: Every 3,2 second (approx.) - Normal: Every 5,3 second (approx.) - Slow: Every 33 second (approx.
Technical specifications • Communication frequency range: 43,5 to 49,5 kHz • Default communication channel: 4 • Physical properties: - Length: 246 mm - Width: 171 mm - Thickness: 123 mm - Weight in air: 4,3 kg • Charging time with PI Charger: - To 70% capacity: 1 hour - To 100% capacity: 4 hours • Charging time with PS Charger: - To 100% capacity: 16 hours PI Depth • PI Systems: PI32, PI44 or PI54 • Update rates: - Fast: Every 4,5 second (approx.) - Normal: Every 14 second (approx.
Simrad PI32 • Charging time with PI Charger: - To 70% capacity: 1 hour - To 100% capacity: 4 hours • Charging time with PS Charger: - To 100% capacity: 16 hours PI Height • PI System: PI32, PI44 or PI54 • Update rates: - Fast: Every 5,5 second (approx.) - Normal: Every 14 second (approx.) - Slow: Every 34 second (approx.
Technical specifications • Default update rate: Fast • Lifetime between each recharge: - Fast update rate: 45 hours - Normal update rate: 100 hours - Slow update rate: 150 hours • Communication frequency rang: 43,5 to 49,5 kHz • Default communication channel: 2 • Accuracy: 0,2 % • Maximum range: 350 meters • Physical properties (Spread/Remote): - Length: 298 / 248 mm - Width: 149 / 121 mm - Thickness: 120 / 98 mm - Weight in air: 5,7 / 2,9 kg • Charging time with PI Charger: - To 70% capacity: 1 hour - To
Simrad PI32 • Charging time with PI Charger: - To 70% capacity: 1 hour - To 100% capacity: 4 hours • Charging time with PS Charger: - To 100% capacity: 16 hours 248 857-164636 / Rev.
Operator manual INDEX The next pages provide an alphabetical index to this manual.
Simrad PI32 DBK, NMEA Parameter: References 165 Display colours: References 173 DBS, NMEA Parameter: References 165 Display presentations, Overview: Display modes 28 DBT, NMEA Parameter: References 165 Default settings Parameters: References 160 Procedure: Operational procedures 83 Demo, Echo sounder: References 159 Depth Alarm: References 159 Display: References 158, 159 Fish alarm: References 159 Keel: References 158 Transducer: References 158 Depth alarm Parameter: References 159 Procedure: Operat
Operator manual Graphic alarm How to: Operational procedures 47 Parameter: References 170 Graphic display Application example: Applications 27 Description: Display modes 36 Graphic setup: References 161 H Headrope sensor, Parameter: References 183 Height sensor Numeric presentation: Display modes 33 Practical use: Sensors 115 Specifications: Technical specifications 247 Test procedure: Sensor test procedures 234 How to A-scope: Operational procedures 77 Access echo sounder parameters: Operational proce
Simrad PI32 Introduction: Getting started 13 Numeric setup: References 170 Manual gain, Parameter: References 176 Manual trawl marker, Parameter: References 183 Marker line, Parameter: References 162 Marker line delay, Parameter: References 162 Marker line thickness, Parameter: References 162 O Offset adjust, Setup: References 171 Operator Unit, Description: System description 5 Output power, Transmitter: References 159 P Master reset: References 160 Max sh.
Operator manual How to: Operational procedures 73 Parameter: References 155 Range start, Parameter: References 155 Receiver setup: References 175 Remote sensor Practical use: Sensors 124 Practical use with Twin Spread: Sensors 129 Specifications: Technical specifications 247 Test procedure: Sensor test procedures 237 Shear alarm, Parameter: References 178 Signal threshold How to activate: Operational procedures 71 Parameter: References 156 Sound speed, Parameter: References 156 Speed, NMEA Parameter: Re
Simrad PI32 Temperature sensor Numeric presentation: Display modes 35 Practical use (PI): Sensors 134 Practical use (PS): Sensors 140 Specifications: Technical specifications 248 Test procedure: Sensor test procedures 241 Test procedures, Sensors: Sensor test procedures 224 Time, Parameter: References 177 Transducer depth, Parameter: References 158 Transit, NMEA Parameter: References 165 Transmit power, Parameter: References 159 Transmit pulse length, Parameter: References 159 Trawl info setup: References
E 2005 Simrad AS ISBN 82-8066-059-3
