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Changes for page Peripheral Equipment

Last modified by santi on 2025/07/28 17:17
From version 31.1
edited by santi
on 2025/07/28 17:17
Change comment: There is no comment for this version
To version 16.1
edited by Jack Dent
on 2025/07/22 13:57
Change comment: There is no comment for this version

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Author
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1 -XWiki.santi
1 +XWiki.JackD
Content
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1 -= Solar Equipment =
1 +== Solar Equipment ==
2 2  
3 -== Solar panels: ==
3 +=== Solar panels: ===
4 4  
5 5  The most commonly used type of solar panels for ANSIRs seismic stations are 10W solar panels as seen below. These are designed to be fixed onto the mesh cages that house the loggers, occupying roughly one quarter of the mesh panel. Some shaded spots may require a larger panel, and for such spots there are also 20W panels available.
6 6  
... ... @@ -14,9 +14,9 @@
14 14  
15 15  === [[image:Solar%20panel%20back.jpg||alt="Solar panel back.jpg" data-xwiki-image-style-alignment="start" height="186" width="228"]][[image:solar%20panel%20front.jpg||alt="solar panel front.jpg" data-xwiki-image-style-alignment="start" height="184" width="217"]] ===
16 16  
17 -== LPR Solar Regulators: ==
17 +=== LPR Solar Regulators: ===
18 18  
19 -The LPR loggers have no built in solar charge controller, thus, an external regulator is placed between the solar panel and logger. This regulator steps the voltage down from the panels voltage (typically 20V) to ~~14V. Note that these are not required for the TerraSAWR as they have an inbuilt charge controller.
19 +The LPR loggers have no built in solar charge controller, thus, an external regulator is placed between the solar panel and logger. This regulator steps the voltage down from the panels voltage (typically 20V) to 12V. Note that these are not required for the Terrasawrs as these loggers have an inbuilt charge controller.
20 20  
21 21  Details (for shipping):
22 22  
... ... @@ -24,38 +24,60 @@
24 24  
25 25  Weight: 0.2kg
26 26  
27 -[[image:Solar%20regulator.jpg||alt="Solar regulator.jpg" height="203" width="171"]]
27 +[[image:Solar%20regulator.jpg||alt="Solar regulator.jpg" data-xwiki-image-style-alignment="start" height="203" width="171"]]
28 28  
29 -== LPR power adapters ==
29 +== ==
30 30  
31 -The LPR recorders were created with the use of a custom lead acid battery in mind. These batteries consisted of a charge controller and multiple flat battery cells encased in a metal box. However, over time these batteries degrade and are no longer used. In place of the original batteries, other kinds of lead acid batteries that are readily available at stores are now used, making them more reliable, accessible, and versatile. 
31 +== ==
32 32  
33 -Valve regulated lead acid batteries can be used within the LPR, plugged into where the old batteries would have been. For larger projects, an external battery case alternative can be used, connecting to the external power port where a solar panel is typically attached. AGM lead acid batteries may be ideal in this scenario, and a battery in the place of the old one is not needed.
33 +== ==
34 34  
35 -To make use of these batteries, special power adapters have been created. The battery plug that is found on the LPRs consists of 6 pins; E and F power the LPR from the connected battery, and A, B, C, and D charge the battery.
35 +== ==
36 36  
37 -[[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/20250722_093034%7E2.jpg?width=196&height=217&rev=1.1||alt="20250722_093034~~2.jpg" height="217" width="196"]][[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/20250722_093034.jpg?width=118&height=217&rev=1.1||alt="20250722_093034.jpg" height="217" width="118"]]
37 +== ==
38 38  
39 -Only pins A and C handle voltage coming from the external power port through the LPR, as B and D are designed to charge the battery only from a battery charger. It is important to note that power coming in from the external power port goes directly to pins A and C to charge the battery within the case. No power goes directly to the motherboard, so an LPR cannot be powered from the external power port without dealing with the 6 pins. 
39 +== GPS ==
40 40  
41 -Using a standard lead acid battery (typically between 10-30 amp hours) in place of the old model, an adapter that allows power from the external power port to reach the battery must be used. As the new batteries that are being used only have 2 connectors (positive and negative), the adaptors have been constructed so pin A feeds into E, and pin C feeds into F. For the sake of tidy cabling, D is connected to pins C and F, and B is connected to pins A and E. Put simply, all the positive pins are connected, and all the negative pins are connected.
41 +Both LPR and Terrasawr loggers utilise the standard BNC connector type GPS antennas. These are easy locking connectors, with a long cable and magnetic GPS unit attached, making it incredibly simple to fix to any kind of metal enclosure. Double sided tape or some other adhesive could also be applied to the flat back of these GPS units for any surface that is not magnetised.
42 42  
43 -[[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/original_f694a36b-3924-4b20-a92b-fff73a25470f_20250722_110242.jpg?width=331&height=277&rev=1.1||alt="original_f694a36b-3924-4b20-a92b-fff73a25470f_20250722_110242.jpg" height="277" width="331"]][[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/original_42937d1c-ff48-47c6-bd01-ea8a15582646_20250722_110255.jpg?width=222&height=277&rev=1.1||alt="original_42937d1c-ff48-47c6-bd01-ea8a15582646_20250722_110255.jpg" height="277" width="222"]]
43 +Details (for shipping):[[image:GPS%20%282%29.jpg||alt="GPS (2).jpg" data-xwiki-image-style-alignment="end" height="183" width="235"]]
44 44  
45 -Given the correct voltage through the external power port, this adapter will allow the battery to function in the same way as the previous model; it will power the LPR as well as be charged without issue.
45 +Equipment: GPS for LPR and Terrasawr
46 46  
47 -= GPS =
47 +Weight: 0.1kg
48 48  
49 -Both LPR and TerraSAWR loggers utilise the standard BNC connector type GPS antennas. These are easy locking connectors, with a long cable and magnetic GPS unit attached, making it incredibly simple to fix to any kind of metal enclosure. Double sided tape or some other adhesive could also be applied to the flat back of these GPS units for any surface that is not magnetised.
50 50  
51 -Details (for shipping):
50 +Guralp seismometers are not currently available for use
52 52  
53 -Equipment: GPS for LPR and TerraSAWR
54 54  
55 -Weight: 0.1kg
56 56  
57 -[[image:GPS%20%282%29.jpg||alt="GPS (2).jpg" height="183" width="235"]]
54 + [[image:Guralp%20antenna.jpg||alt="Guralp antenna.jpg" height="465" width="248"]]
58 58  
56 +|**Type**|Guralp Antenna
57 +|**Size (Diameter x Height)**|6 x 27cm
58 +|**Weight**|0.3Kg
59 +
60 +
61 +
62 +== LPR power adaptors ==
63 +
64 +The LPR recorders were created with the use of a custom lead acid battery in mind. These batteries consisted of a charge controller and multiple flat battery cells encased in a metal box. However, over time these batteries degrade and are no longer used. In place of the original batteries, other kinds of lead acid batteries that are readily available at stores are now used, making them more reliable, accessible, and versatile. 
65 +
66 +Valve regulated lead acid batteries can be used within the LPR, plugged into where the old batteries would have been. For larger projects, an external battery case alternative can be used, connecting to the external power port where a solar panel is typically attached. AGM lead acid batteries may be ideal in this scenario, and a battery in the place of the old one is not needed.
67 +
68 +To make use of these batteries, special power adaptors have been created. The battery plug that is found on the LPRs consists of 6 pins; E and F power the LPR from the connected battery, and A, B, C, and D charge the battery.
69 +
70 +[[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/20250722_093034%7E2.jpg?width=196&height=217&rev=1.1||alt="20250722_093034~~2.jpg" height="217" width="196"]][[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/20250722_093034.jpg?width=118&height=217&rev=1.1||alt="20250722_093034.jpg" height="217" width="118"]]
71 +
72 +Only pins A and C handle voltage coming from the external power port through the LPR, as B and D are designed to charge the battery only from a battery charger. It is important to note that power coming in from the external power port goes directly to pins A and C to charge the battery within the case. No power goes directly to the motherboard, so an LPR cannot be powered from the external power port without dealing with the 6 pins. 
73 +
74 +Using a standard lead acid battery (typically between 10-30 amp hours) in place of the old model, an adaptor that allows power from the external power port to reach the battery must be used. As the new batteries that are being used only have 2 connectors (positive and negative), the adaptors have been constructed so pin A feeds into E, and pin C feeds into F. For the sake of tidy cabling, D is connected to pins C and F, and B is connected to pins A and E. Put simply, all the positive pins are connected, and all the negative pins are connected.
75 +
76 +[[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/original_f694a36b-3924-4b20-a92b-fff73a25470f_20250722_110242.jpg?width=331&height=277&rev=1.1||alt="original_f694a36b-3924-4b20-a92b-fff73a25470f_20250722_110242.jpg" height="277" width="331"]][[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/original_42937d1c-ff48-47c6-bd01-ea8a15582646_20250722_110255.jpg?width=222&height=277&rev=1.1||alt="original_42937d1c-ff48-47c6-bd01-ea8a15582646_20250722_110255.jpg" height="277" width="222"]]
77 +
78 +Given the correct voltage through the external power port, this adaptor will allow the battery to function in the same way as the previous model; it will power the LPR as well as be charged without issue.
79 +
80 +
59 59  = Cables =
60 60  
61 61  [[image:https://auspass.edu.au/xwiki/bin/download/Instrumentation/Peripherals/WebHome/posthole%20cable%202.jpg?rev=1.1||alt="posthole cable 2.jpg" height="575" width="565"]]