11/25/2024 9:32 a.m.
https://cablematic.com/en/products/mkr-gps-shield-board-AR137/
https://cablematic.com/en/products/mkr-gps-shield-board-AR137/
MKR GPS Shield Board
REF: AR137
Specifications
- MKR GPS Shield board. This module is designed to work with different positioning services simultaneously. Receive and process GPS, GLONASS and Galileo signals.
- Connected to an Arduino board, it allows the control, location of devices using GPS technology. Fleet control, high altitude experiments, or device location.
- The MKR GPS Shield is based on the u-blox SAM-M8Q GNSS (Global Navigation Satellite System) module.
- Input voltage: 3.3V. 3.3V operating voltage. It has a socket to insert a CR1216 backup battery.
- Terminals for ICSP (In Chip Serial Programmer) connection.
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PVP
€34.80
€17.40
Price including VAT:
€17.40
PVD
€33.06
PVP: Retail price.
Check conditions.
PVP: Sale price to distributors.
Check conditions.
Buy before:
Receive it:
Friday 29
Delivery times are approximate. Cablematic is not responsible for delays.
2 years
warranty
warranty
14 days
returns
returns
100%
safe
safe
Specifications
- MKR GPS Shield board. This module is designed to work with different positioning services simultaneously. Receive and process GPS, GLONASS and Galileo signals.
- Connected to an Arduino board, it allows the control, location of devices using GPS technology. Fleet control, high altitude experiments, or device location.
- The MKR GPS Shield is based on the u-blox SAM-M8Q GNSS (Global Navigation Satellite System) module.
- Input voltage: 3.3V. 3.3V operating voltage. It has a socket to insert a CR1216 backup battery.
- Terminals for ICSP (In Chip Serial Programmer) connection.
Keywords
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More info
Range of electronic hardware devices and free software (Open Source) with a re-programmable microcontroller, ideal for developing electronics projects both professionally, for education or home users. It allows to connect different input and output components (I / O), Interface that allows to carry out the automation of systems and robotics, as well as to control and supply different devices. It can be programmed in Windows as well as macOSx and GNU / Linux.
Specifications
Specifications
- MKR GPS Shield board. This module is designed to work with different positioning services simultaneously. Receive and process GPS, GLONASS and Galileo signals.
- Connected to an Arduino board, it allows the control, location of devices using GPS technology. Fleet control, high altitude experiments, or device location.
- The MKR GPS Shield is based on the u-blox SAM-M8Q GNSS (Global Navigation Satellite System) module.
- Input voltage: 3.3V. 3.3V operating voltage. It has a socket to insert a CR1216 backup battery.
- Terminals for ICSP (In Chip Serial Programmer) connection.
- Includes a Slov type cable, to connect this module to any compatible board that has this connector.
- Dimensions: 25 x 21 x 41 mm (width x height x depth).
- Gross Weight: 28 g
- Product size (width x depth x height): 2.5 x 4.1 x 2.1 cm
- Number of packages: 1
- Packages size: 8.2 x 6.0 x 2.5 cm
- Master-pack: 1
Technical terms
- Battery charging cycles
- Arduino
Battery charging cycles
When calculating the life of a battery it will be necessary to know the number of charge cycles that can be performed until the battery does not begin to lose its capacity.
Depending on the type of battery these charging cycles can vary, the most common being the mobile batteries, manufactured Li-Ion or Li-Po, which have a duration of between 300 and 500 charging cycles according to model and manufacturer.
Once thisE limit we will notice how the battery loses duration of operation, arriving to lose up to 25% of its capacity of load.
At this point it will be necessary to evaluate a battery change.
It should be noted that usage and charging habits can significantly affect battery life. For example, factors such as heat, charge the battery several times a day without it is almost exhausted, etc. Will be affectedits duration.
Therefore, to get the most out of the battery we must know when a full charge cycle is performed, and try to avoid misuse of charge, to increase its useful life.
A charging cycle is considered when the battery has been discharged or its 100% charge has been used.
The manufacturers advise that the charge is never made below the 58% battery, since the battery voltage would not fall so lowTo, so you could end up winning up to 4000 charge cycles.
Tips to increase the life of a battery.
Depending on the type of battery these charging cycles can vary, the most common being the mobile batteries, manufactured Li-Ion or Li-Po, which have a duration of between 300 and 500 charging cycles according to model and manufacturer.
Once thisE limit we will notice how the battery loses duration of operation, arriving to lose up to 25% of its capacity of load.
At this point it will be necessary to evaluate a battery change.
It should be noted that usage and charging habits can significantly affect battery life. For example, factors such as heat, charge the battery several times a day without it is almost exhausted, etc. Will be affectedits duration.
Therefore, to get the most out of the battery we must know when a full charge cycle is performed, and try to avoid misuse of charge, to increase its useful life.
A charging cycle is considered when the battery has been discharged or its 100% charge has been used.
The manufacturers advise that the charge is never made below the 58% battery, since the battery voltage would not fall so lowTo, so you could end up winning up to 4000 charge cycles.
Tips to increase the life of a battery.
- Avoid extreme heat or cold or very long applications of the device.
- Charge the battery as often as you can.
- Fully discharge the battery from time to time.
- Do not let the battery run out completely before charging.