a) Place the two armrest halves (7) on either side of the shaft assembly (6) and ensure that the bolt holes line up. b) Slide two nylon bolts (8) through the holes and screw nylon wing nuts (9) onto the bolts with a couple of turns. c) Slide the T section on top of the control box (5) into the assembled armrest (7) (with the detector stand at the rear). Tighten the nylon wing nuts (9) by hand. d) Push the armrest cover (10) over the assembled armrest (7). e) Ensure that the lower shaft has two teardrop rubber washers (19) installed. They should always be full thickness and should be replaced regularly as they wear out. f) Push the lower shaft into the mounting bracket on the coil (1) and ensure that the coil decal faces the front.
k) Plug the headphones (17) into the socket in the cap of the battery.
g) Align the holes in the coil mounting bracket and the lower shaft. Push a nylon bolt (19) through the holes and fit a nylon wing nut (19) which should be tightened by hand. DO NOT over tighten as the coil housing may be damaged. h) Adjust the shaft length and coil angle for a comfortable position. Minelab recommends that the shaft length be set to give a comfortable sweep length of approximately 2 metres (see section 7 for more details on detecting techniques). i) Wind the coil cable around the shaft and plug the coil connector into the coil socket on the control box. Ensure that the cable is firmly attached to the shaft without strain and cannot move around, especially near the coil. Fasten the cable to the shaft with the supplied VelcroTM straps (19). Leave enough slack at the bottom of the cable near the coil to allow the coil angle to be adjusted without placing strain on the coil cable. If the cable is able to move around, especially near the coil, it will be seen by the detector and cause random noises, which can be very confusing.
Figure 2 - SD2200v2 Battery Assembly
Note: Always ensure that the Power switch on the control box is turned Off before connecting or disconnecting the coil.

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Control Box

Rear Panel Controls

Power Switch

The Power switch controls the power supply from the battery to the control box. Always switch the detector Off before connecting or disconnecting the coil or battery, and when not in use. 4.1.2 Channel Switch (Ch1, Ch2, Both) The Channel switch selects the channel used for searching: Ch1, Ch2 or Both. Searching is usually done in the Both position which gives the maximum sensitivity to the greatest range of targets. When detecting in highly noisy ground, the selection of Ch1 rather than Both might improve the stability of the threshold. However, sensitivity to certain types of targets is reduced when using only Ch1 and is not recommended. 4.1.3 Threshold The Threshold is used to adjust the loudness of background sound. Minelab recommends a soft audible headphone signal which is comfortable to listen to for extended periods. 4.1.4 Boost Switch (Shallow, N, Deep) The Boost switch can be used to enhance the signals produced by different types of targets. In the Shallow position, signals from small targets close to the surface of the ground will be amplified, allowing easier detection of such targets. This option is best suited for quiet ground. For normal detecting conditions use the N position which responds to all signals without boosting. The Deep position is recommended when looking for big targets at greater depth in noisy ground. In this mode random soil signals are smoothed, making small changes in the audio signal from large deep targets easier to hear. It may, however, mask some signals from very small targets near the surface.

If the signals are too weak for accurate discrimination in either of the discriminating modes, the detector will return to the All Metal mode signal. While in the Disc + ID mode, a signal which is too strong to be discriminated will produce a rapidly pulsing signal with constant pitch. This is called an overload signal. A target producing this sound should not be interpreted as being a ferrous target but be investigated. 4.2.3 Discrimination Level Adjust The discrimination Level Adjust gives the operator the ability to select the sensitivity and likelihood of a target being ferrous or non-ferrous. The same control also affects how the detector recognises mineral effects in the ground as opposed to metal targets, when ground tracking.
Figure 4 - Front Panel Controls

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Operation

Operating Instructions
These instructions can be followed by operators who are familiar with the workings and general terminology of detectors. However, Minelab recommends that as the SD2200v2 has new features and some of the functions can differ from similar functions of other detectors, all operators should read the Operating Instructions in section 5.2.
This section gives a detailed description of how to operate the SD2200v2 detector. The section Detector sounds contains definitions of some terms with which the beginner should be acquainted. 5.2.1 Detector Sounds Threshold: This is the background sound produced by the detector. The loudness of the background sound is set with the Threshold control. Set this so that it can just be heard. The pitch of the threshold sound can be set to your preference using the Tone control. Object signal: This is an abrupt change of the pitch and volume of the threshold sound. If the pitch drops first, then rises as the coil is passed over a target, this generally (but not always) indicates a small target. If the pitch rises first then falls as the coil is passed over a target, this generally indicates a large target. The pitch variations can be different when operating in Disc + ID mode (see section 5.2.9). Ground noise: These are irregular noises that are difficult or impossible to pinpoint when moving the coil over the ground. They are caused by changing chemistry or mineralisation of the ground. While the detector is in Tracking mode these effects are minimised. 5.2.2 Turning on the SD2200v2 Hold the coil away from the ground and metal objects and switch the Power switch to On. Note: When the SD2200v2 is turned off, it saves important information (like last tuning and ground balance settings) in its internal memory. If detection is started in the same spot, the user should not have to re-tune or re-ground balance the detector. 5.2.3 Set the Threshold Control The Threshold control should be set so that background tone is barely audible. It is important to note that small surface objects, as well as large deep objects, will produce very small changes in the threshold sound. It is therefore important to set the Threshold control correctly to ensure that these targets are heard. We suggest that you experiment with known targets to assist in setting this and the other controls to suit your hearing.

Quick Start Instructions

a) Switch the Power switch to On. b) Set the Threshold control so that sound can be heard in the headphones. c) Hold the detector at waist height with the shaft horizontal, so that the coil is vertical. Keeping the coil vertical, slowly move it around your body through a half-circle until the noise from interference is loudest. Hold this position, keeping the coil motionless, and push the Tune button once to start tuning function. Tuning takes approximately one minute. A series of three beeps indicates that the best frequency has been selected. d) Rotate the Tone control to produce a threshold pitch that suits your hearing. e) Set the Channel switch to Both and the Audio/Boost switch to either Shallow for small shallow targets, Deep for large, deep targets or N (Normal) for general detecting. (see section 5.2.7) f) Set the Iron Discriminate switch to the Disc position and turn the Level Adjust to the middle of its range.
g) Ground balance the detector by pulsing the coil up and down and, while coil is in motion, flick the Balance Mode switch from Fixed toTrack. h) Your detector is now ready to be used. Minelab recommends that you take time to read this manual thoroughly to help get the most out of your new SD2200v2.

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Set the Tone Control

Carefully adjust the Tone control until the threshold sound is at a comfortable pitch for your hearing. Note that interpretation of the detection signals involves understanding the difference between the rising and falling pitch of the threshold. Again, we suggest you take time to experiment with known targets. Generally, setting the Tone control at a high pitch is more fatiguing but better for identifying the faintest signals. 5.2.5 Set Tune Control With the SD2200v2 operating and the Threshold control and Tone control set: Hold the detector at waist height and the coil vertical. Keeping the coil vertical, slowly move it through a half-circle around your body. Listen for an increase in interference as you move the coil. When the interference is loudest, stop moving the detector, hold it motionless in that position and momentarily press the Tune button. The detector will now scan through its range of transmission frequencies and automatically select the frequency that offers a minimum of interference. The end of the search (which takes about one minute) is announced by three beeps.

The Deep position is recommended when looking for big targets at depth. It smoothes out background sound and signals from small targets, making small changes in audio signal easier to hear. For normal detecting conditions use the N (normal) position, which does not boost any signals. Select whichever position best suits the conditions of the area you are detecting. Each time the switch is changed, the threshold will also need to be changed. External amplifiers may be used in addition to the boost switch, provided they have loudness limiters built in. This prevents loud signals becoming unpleasant or dangerous to hearing. 5.2.7 Channel Switch (Ch1, Both, Ch2) In almost all circumstances, this switch should be set to Both. There are very few circumstances in which it is beneficial to use either of the other settings and to do so will reduce sensitivity to certain types of targets. The function of this switch is to select which of the channels the detector uses to generate signals. Each of the channels has a sensitivity to its own range of target types and sizes and each channel complements the other. When set to Both, the detector uses the best channel for a particular target to generate the signal. It is for this reason that Minelab recommends the use of Both in almost all circumstances. Selecting Ch1 can help reduce ground noise from very noisy ground. It can sometimes stabilise the threshold which will assist in hearing faint targets in such conditions. As a result of excessive ground noise, Minelab does not recommend the use of Ch2 by itself. Setting the Channel switch to Ch1 does not affect the blanking of sounds due to ferrous targets while in Disc or Disc + ID. Note that in general, however, the signal pitch and volume in Disc + ID mode for a target will be altered. Note that the Channel switch does not affect the way in which the automatic ground balance operates.
Important: While the detector is selecting the preferred frequency, the coil must be kept motionless and clear of metal objects. In some cases it may not be possible to remove the interference completely, but the effect will be greatly reduced. Once this control has been set for the location you are in, it should not require readjustment unless conditions change or new interference is introduced such as other detectors operating in the vicinity.

5.2.6 Boost Switch (Shallow, N, Deep) This switch is used to select the type of sound made by the detector in response to different target types. In the Shallow position, signals from small targets close to the surface are boosted. This makes it easier to hear these target signals. This setting will also tend to boost ground noise, so this setting is best used in quiet ground.

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Ground Balancing

Ground Balance Procedure Ground balance both channels at once by setting the Channel switch to Both. Move the coil up and down between 20mm and 100mm above the ground, and while moving the coil, set the Balance Mode switch from Fixed to Tracking. The fast ground balance lasts for only five seconds after switching to Tracking. Therefore, it is important to be moving the coil as the switch is thrown.
Automatic ground balance is active whenever the detector is set in the Tracking mode. In this mode, the detector continuously measures the effect of ground mineralisation and automatically adjusts the ground balance to compensate. Introduction The SD2200v2 can be operated with automatic ground balance (Tracking mode) or with the ground balance fixed (Fixed mode). When the Balance Mode switch is switched to Fixed mode, the ground balance is held at its current level. When switched from Fixed to Tracking mode, the detector begins to automatically ground balance through a process of two stages. The first stage is a very rapid adjustment to the ground mineralisation. This stage lasts for five seconds after the switch is thrown. The second stage continues to adjust to the ground mineralisation, but at a greatly reduced speed. Adjustment continues for as long as the detector is kept in Tracking mode. It may be of use to repeat the ground balance function when ground conditions change rapidly. If the detector is switched to Fixed mode at any time, it will no longer adjust itself to changes in soil mineralisation, but will stay fixed at the level it last reached while in Tracking mode. While in Tracking mode, the detector usually stops ground balancing when it detects a target. However, a weak target signal may not be recognised as a target and, if the coil is repeatedly passed over it, the target could be tracked out. It is therefore recommended to switch from Tracking to Fixed when pinpointing a potential target (see also Discrimination level control, pages 21and22). For best results, use Tracking mode in areas with high ground noise. If the ground mineralisation is only mild or with little variability, searching in Fixed and regularly rebalancing when required can have advantages. People who have used previous SD models must note that setting the Channel switch does not affect the operation of the automatic ground balance.

Figure 6 - Discrimination Levels

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If a target signal is too weak for the detector to discriminate when it is set in one of the discriminating modes, it will revert to the All Metal mode. As soon as the signals become strong enough, the detector will resume discrimination. It is not advisable to pinpoint in the Disc + ID mode because the duration of the signal is too long (too broad a signal). Pinpointing is best performed in the All Metal mode. It is recommended that once a target has been located and the operator is using the discriminator, the coil should be rapidly passed back and forth over the target centre several times. Remember to switch back to Fixed balance for this. The coil must at all times, particularly when discriminating or IDing a target, be passed smoothly over the surface of the ground while maintaining the coil height above the ground. The form of ferrous discrimination which blanks the signal will not work if a monoloop coil is used instead of the recommended Double D. In that case the Disc mode will be identical in response to the All Metal mode. The Disc + ID mode will operate in the +ID mode giving pitch discrimination, but will still not blank ferrous signals. The operation of the Disc + ID mode is affected by signals which are too strong. If the signal is too strong in +ID mode, the detector will emit a rapidly pulsing signal of constant pitch. This is to guard against erroneous interpretation indicating an overload of signal. Lift the coil slightly higher above the ground and the discrimination functions will return. The Disc mode discrimination will only blank a ferrous signal when a target gives a strong signal when passing across a piece of iron, a target response will be heard until the SD2200v2 identifies that the target is indeed iron. At this point, the signal will blank. The target strength required for this to occur can be adjusted using the Discrimination Level Adjust Control.
Control Rotation Anticlockwise
Discrimination Suggested for areas with small amounts of junk Dig more junk but less likely to cancel a gold nugget (+ID) function requires stronger signals to operate

Clockwise

Suggested for areas with a lot of ferrous junk Dig less junk but may mistake a nugget for ferrous junk (+ID) function requires less strong signals to operate
Most iron objects are discriminated Almost all iron objects are but a few small iron objects will be discriminated however a few small accepted as non-ferrous non-ferrous items will be ignored Only fairly strong target signals will trigger discrimination action Tracking Ground track is more likely to balance out targets Medium to strong signal required to pause the Tracking mode Ground track is less likely to balance out some weak signals Weak signal will pause the Tracking mode Strong and medium target signals will trigger discrimination action

Suited for areas of rapidly changing Suited for areas with constant mineralisation ground mineralisation
Figure 7 - Discrimination Audio Signal

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5.2.10 Level Adjust Control There is usually some overlap between signals from useful targets and some types of iron junk. Because of this, the operator has to use the Level Adjust knob to select the amount of discrimination between two extremes: no useful target missed, but some iron getting through (anti-clockwise) and unlikely any iron detected but some small non-ferrous targets possibly missed (clockwise - see page 21) The Level Adjust gives the operator the ability to select the sensitivity and likelihood of a target being discriminated as ferrous. The same control also affects how the detector recognises ground mineralisation as opposed to metal targets, while operating in Tracking. Turning the control anti-clockwise increases the strength of a signal required for iron discrimination to be activated. Turning the control clockwise has the opposite affect, but non-ferrous targets are more likely to be mistaken for iron. The Level Adjust control has exactly the same effect in both Disc and Disc + ID positions. In the All Metal mode it effects only the Tracking mode. Set fully clockwise there is little danger of the Tracking cancelling out genuine targets, however some ground may also give a false signal. With the Level Adjust control set fully anti-clockwise most ground signals will be tracked effectively but some faint, weak target signals may be missed. Minelab recommends that it is usually best to dig out all targets and only use the discriminator in areas where the unreasonable abundance of trash makes the digging of everything impractical. Note: Discrimination functions will work only on strong, positive signals. Weak signals will give normal all metal type signals. The shape or profile of the object may also influence the ID tone on occasion. Check by passing the coil across the target several times and from a variety of directions.

Auxiliary Parts

Battery
The 6 volt rechargeable battery supplied with your SD2200v2 will give power to operate the detector for 14 - 15hrs after being fully charged. These batteries may be recharged at any time during their discharge cycle. It is very important to fully charge the batteries before storage. Do not leave a battery fully discharged for longer than 1 day. CAUTION Only use 6v batteries as supplied. Never use a 12v battery as this will damage the detecor. This damage is not covered by warranty.

Figure 8 - Detecting motion procedure

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Each sweep should overlap the area covered by the previous sweep. This will ensure a full coverage of the searched area. Be aware of the search pattern of the coil and overlap your sweeps to take this into account.
Hints for Maximum Gold Recovery
Keep the coil as close to the ground as possible. Listen very carefully. This is more important than concentrating on looking. SLOW DOWN! DO NOT rush take your time.

Prospecting Tips

The SD2200v2 has superior ground balancing features and it is possible to find quite large objects near the surface in well-worked areas simply because other detectors have been unable to cope with the high degree of mineralisation. In light of this, you should not ignore what can seem to be unlikely responses. In other words, dig all signals, even in thrashed areas. Very large variations in the mineralisation of an area can produce a signal in the detector. Typically, in the Victorian goldfields you might get a response from a concentration of orange/reddish dyke material or clay. Similarly, in the loamy conditions of Western Australia a pocket of dark orange/reddish clay or rock may produce a sudden signal variation. It is not recommended that you try to ground balance the detector on top of a signal, in an attempt to cancel a questionable response, as this can also cancel weak signals from very deep targets. If in doubt scrape away some soil above the suspect signal. If the signal gets stronger, it is a target, so dig it! If the ground is extremely variable and causes the detector to be very noisy, you may try operating with the Channel switch set to the Channel 1 position. This will reduce noises caused by the varying mineralisation, but some nuggets may not be detected. The full range of nuggets are only detected when the channel switch is set to the central B position, not in Channel 1 or Channel 2. Charcoal can sound loud at times and rather like a metallic object when close to the surface. Charcoal is usually created by bushfires or by farmers burning off tree stumps. The charcoal may be below the ground level and it is not always obvious until you have actually dug up and located the cause of these noises a few times. Once the charcoal is removed from the ground the signal will vanish.
Identifying Target Signals
Metallic targets will usually give a solid sounding response when the coil is swept across the object from any direction. Ground noises usually give a broad uneven response when the coil is swept from different directions. A metallic target generally sends out a short, sharp and mostly symmetrical response. If you are not sure whether the sound is ground noise or a target, you need to find out if the signal is valid. Scrape a shallow hole about 70mm to 100mm deep over the suspected target. Sweep the coil over the hole at the original ground level. Do not dip the coil into the hole. If the signal has decreased in volume or is less defined, it is a ground noise. If the signal remains the same or becomes louder, it is a metallic target. If you are still not sure, make the hole deeper and repeat the process. You will also notice that mineral noises are often experienced from one direction only, on the return swing it is no longer there. The Halo Effect, which is built up around a buried metal object, makes the object appear to be larger to the SD2200v2 than it actually is. This will be reduced once the target is disturbed from its position in the soil. An example of this is when a small target, detected at a substantial depth with the SD2200v2, is barely or not even detectable once recovered from the ground. Even if reburied, the Halo Effect will disappear. It is not recommended that you try to eliminate what might appear to be a faint, isolated ground noise by balancing the SD2200v2, as you might be balancing out the response from a deeply buried metallic target.

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Pinpointing

Digging the Target
In order to save time in the recovery of an object and to reduce the size of the hole required to extract it from the ground, it is necessary to pinpoint the exact location of the object. The technique described here will be particularly useful with the Double D coil, but will also work with a Monoloop coil. When a likely object is detected, sweep the general area with the coil, taking note of where the strongest signal is received. Raise and lower the coil to one side of the target to make sure you are still ground balanced. If necessary balance the detector again, then recheck the signal. If the ground balance is accurate you may begin the pinpointing procedure. Decrease the length of the sweep and it should be possible to draw an imaginary line in the ground where the strongest signal is located (see figure 9). Now, move around the target and sweep the coil at 90 degrees to the initial direction. Repeat the process of drawing an imaginary line. Where the two imaginary lines cross is where the object is located.
Once you have established the location of the target it is necessary to dig a small hole to recover it. In order to preserve the environment, it is essential to make the hole as small as possible and always replace any soil and grass that you have removed. Carry at least one of the following digging tools with you when searching. The best tools are: a small, strong, digging spade a pick a shovel a crowbar (for very deep objects in hard ground).
Before digging, clear the area of loose surface material and check that the sound is still there. If it is not, the target must be among the surface material. If the signal is still there, dig down 50mm to 100mm. If the target is not visible, sweep over the hole. If the signal has gone then it must be in the pile just dug. Make sure that there are no objects buried in the soil. Take care when you dig because damaging a nugget can reduce its value. Minelab suggests you start digging about 100mm in front of the target to reduce the chance of damage. Pile the diggings carefully as it might be necessary to search them systematically later. They must also be replaced, just as they were dug, once your search ends. If it becomes evident that the target is in the removed soil pile, sweep the coil over the pile and pinpoint where it lies. Progressively halve the pile containing the target. If the target is still difficult to find, lay the detector down with the coil flat on the ground. Take a handful of the diggings and pass them over the coil. If there is no signal, place the handful carefully away from the pile and repeat with another handful. Of course, your hands and wrists must be free of any metallic jewellery and watches. Once the object has been recovered it is a good idea to sweep the hole again to ensure that there are no other targets to be detected. When you have found an object in a particular hole, search the surrounding area very carefully as it is very likely that there are more objects nearby. If you hear a target, keep searching until you find it. It is there and it might be valuable.

Figure 9 - Pinpointing Procedure
If using a Monoloop coil, small shallow nuggets will give a signal near the rim of the coil. An alternative pinpointing technique for Monoloop coils is to turn the detector coil on its side and move the coil while it is vertical across where you suspect the target to be. This may assist in pinpointing as shown in figure 10.
Figure 10 - Alternative Pinpointing
Note: Refill the hole you have dug, and leave the area as you found it.

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Digging Deep Targets

The SD2200v2 has unparalleled depth capabilities which will surprise experienced and new prospectors alike. If the target appears to be buried deeply, it will help to use the following technique: Use the cross-sweeping method to locate the target as accurately as you can. Scrape a hole about 100mm deep and large enough to take the coil. Keep testing the target location as you dig deeper and deeper. Be careful that the target is not in the wall of the hole and you dig past it. If using a Monoloop coil, turn the detector coil onto its edge, making it vertical, and probe various sections of the hole, listening for the loudest reading.

Maintenance

The SD2200v2 is a high quality electronic instrument. It is finely engineered and housed in a durable container. Take care of it in the following way: It is vitally important to keep the connectors dry and clean. Do not expose the detector to high temperatures or leave in the sun longer than necessary. Shading will help protect it. Avoid leaving it in a closed vehicle, especially in the sun. The coil housing will wear through if you scrub the ground with it while searching. Minelab recommends that you use a replaceable skid plate on the coils to protect them. To prevent dirt entering between the coil and skidplate, you can use a silk tape such as Leukosilk, which is available from chemists. The use of some other tapes, such as insulation tape, can result in loss of performance. The control box is not waterproof, even though it has been designed to be water-resistant. Avoid getting it wet. The coils are not waterproof. They are water resistant and may be used in rain or wet conditions. Do not immerse in water. The control box and Coils must not come into contact with petrol or other oil-based liquids. If any part of the detector comes into contact with corrosive substances, including salt or salt water, it must be washed with fresh water. Keep the unit dry and clean. To clean the detector use a damp cloth with mild soap detergent. DO NOT use solvents.

Salty Environments

The SD2200v2 will find objects at great depth in salty environments, but interfering signals caused by the saturated salt or highly concentrated salt can not be completely balanced out. The 11 Double D coil will give the best results in salty conditions. Again, only searching in Channel 1 may help to keep the detector stable.

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Troubleshooting

Specification
Use the following table to check for problems which you can diagnose:
Note: In the interest of product improvement, Minelab reserves the right to make changes to this specification without notice. Length Weight Configuration Transmission Ground Rejection Search Mode Controls Maximum 1.3m Minimum 1.1m Complete (excl. battery) 2.4kg Shaftmount Yes Hipmount No Multi Period Sensing Automatic or fixed Ground Balance Motion "On / Off" 2 Pos. Switch Threshold 1 Turn Audio (Shall, Norm & Deep) 3 Pos. Switch Tone 1 Turn Auto Tune (push button) 1 Touch Channel (Ch1, Ch2 & Both) 3 Pos. Switch Search (Fixed, Tracking) 2 Pos. Switch Iron Discriminate 3 Pos. Switch (Disc, Disc + ID & All Metal) Level Adjust 1 Turn Loudspeaker No Headphone jack Stereo or Mono 6 Volt 12Ah gel cell Duration Approx. 14 - 15hrs Windings Double D Weight 720g (Other search coils are available as accessories.) Patents apply
Audio O/P Batteries If you need to return your detector to Minelab for service, please supply as many details as possible about the fault. This will enable our service engineers to rectify the fault quickly and efficiently. Return the detector in a cardboard box for protection. DO NOT forget to supply your name, address, telephone number, purchase date and serial number when sending in detector parts for repair. Search Coil 11 Round Patents

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Warranty

Accessories
There is a two-year parts and labour warranty on the SD2200v2 control box. Refer to your Product Warranty card for details. Search coils are warranted for one year against malfunction. In all instances, refer to your supplier or Minelab for service, either in or out of warranty. Note: This warranty is not transferable or valid unless the enclosed warranty registration card is returned to Minelab Electronics Pty. Limited or an authorised regional distributor within 14 days of the date of the original purchase, for the purpose of recording the purchase date, which is the actual commencement of the warranty. The Minelab warranty does not cover damage caused by accident, misuse, neglect, alteration, modification, or unauthorised service. For specific details of the Minelab warranty please refer to the Product Warranty card. Please note it is the responsibility of the owner to pay transport costs for the detector to and from Minelab for repair.
Figure 11 - Coil Search Patterns

Search Coils

THIS DEVICE COMPLIES WITH PART 15 OF THE FCC RULES
Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.

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Minelab Service Repair Form
Todays Date:.. Detector Model:.. Serial No.:.. Purchased From:... Purchase Date:.. Part(s) Supplied for Service:...... Description of Fault:................ Owners Name:.... Address:....... Phone: B/H ( Fax: ( ). A/H ( )..

).. Email:..