Test 112 Instructions
Version 29 (Aaron Harper, 03/25/2014 07:44 pm) → Version 30/50 (Aaron Harper, 03/25/2014 07:46 pm)
h1. Test 1.1.2 Instructions
{{toc}}
h2. Test Hardware
* Transmitter for lab and field tests - http://www.ti.com/ww/en/RF-BoosterPack/index.shtml
* Ground Sphere test rig
* 915 MHz transmitter, see link above
* Computer, min system reqs: Windows 7, 1GHz, 1GB RAM
h2. Test 1: Lab Test
Lab test using low power transmitter at 915 MHz to confirm signal reception and system gain (not an AX.25 signal, but close enough). These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Additional Tools Needed:*
Tape Measure
*Safety concerns:*
_________________________
*Outcome*
* Partial verification of technical requirement 1.1.2,
* Confirmation of Ground Sphere performance in best case laboratory conditions
* Confirmation of Ground Sphere performance in simulated orbital conditions
*Instructions:*
# [ ] Turn on computer
# [ ] Turn on the transmitter
# [ ] Plug the GroundSphere USB data connector into an open USB port
# [ ] Plug the GroundSphere power cord into a standard 120v power outlet
# [ ] measure and record the distance between transmitter and receiver: 1 meter
# [ ] Launch the SeeDeR version 0.1 software
# [ ] Tune the transmitter to 915 MHz
# [ ] Set transmitter power to -20dBm _NOTE: (This is a reasonably strong terrestrial signal, and is an unrealistically high power to expect from SkyCube)_
# [ ] Tune the SeeDeR version 0.1 software to receive 915 MHz
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
# [ ] Measure and move the transmitter 3 meters from the GroundSphere antenna ensuring a clear line of sight.
# [ ] Set the transmitter power level to -20dBm. _NOTE: (at this power level, the intent is to get as close as possible to the signal strength that we expect to receive form SkyCube as it flys directly overhead of the antenna, given its orbital parameters <link to TLE file used in calculations> )_
# [ ] Observe the transmitted signal received by GroundSphere
<insert image of laboratory setup>
<insert screenshot image of computer screen showing high power 915 MHz signal>
<insert screenshot image of computer screen showing low power 915 MHz signal>
*TEST PROCEDURE COMPLETE*
h2. Test 2: Field Test
Long range field test using low power transmitter at 915 MHz to verify the predicted link budget (which comes from <insert link to spreadsheet> analysis) and confirm signal reception. It is recommended to conduct this test with at least 2 individuals. These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Additional Tools Needed:*
Laptop computer meeting or exceeding the minimum system requirements.
Portable table or truck bed (on which to set up receiver equip and computer)
Access to 120V a/c power for preamp (generator or car inverter) or DC adapter (vehicle power jack to 2.1mm preamp power jack).
Tape measure or distance finding equipment (GPS?)
*Safety concerns:*
Weather caution
Traffic caution
Portable power for equipment(?)
*Outcome*
* Partial verification of technical requirement 1.1.2,
* Confirmation of Ground Sphere performance in optimal fielded conditions
* Confirmation of Ground Sphere performance at a far distance to simulate orbital conditions
*Instructions:*
> Mission Control Set Up
# [ ] Set up receiver and computer on portable table or in a vehicle with the antenna outside.
# [ ] Turn on computer
# [ ] Plug the GroundSphere USB data connector into an open USB port
# [ ] Plug the GroundShpere power cord into a standard 120v power outlet
# [ ] Launch the SeeDeR version 0.1 software
# [ ] Move to a distance 2650 meters away from the receiver set up with a clear line of sight, then set up the transmitter
# [ ] Record the distance between transmitter and receiver: _______________(in m) Note: If not exactly the above value
> Remote transmit site Set Up
# [ ] Power on and tune the transmitter to 915 MHz
# [ ] Set transmitter power to 0dBm _NOTE: (This is a reasonably strong terrestrial signal, and is an unrealistically high power to expect from SkyCube)_
# [ ] Tune the SeeDeR software to receive 915 MHz
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
# [ ] Set the transmitter power level to -20dBm. _NOTE: (at this power level, we are simulating the signal that we expect to receive form SkyCube as it flys directly overhead of the antenna, given its orbital parameters <link to TLE file used in calculations> )_
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
<insert image of receiver setup>
<insert image of transmitter setup>
<insert screenshot image of computer screen showing high power 915 MHz signal>
<insert screenshot image of computer screen showing low power 915 MHz signal>
*TEST PROCEDURE COMPLETE*
h2. Test 3: From Orbit Test
acquire signal from orbiting cubesat operating on 915 MHz (NPS just launched two cubesats which use the same radio and configuration as SkyCube). Orbital prediction software will need to be used to calculate the appropriate timing for this test. It is only possible to conduct the steps below in anticipation of a 915 MHz signal source flying overhead. These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Tools Needed:*
Ground Sphere test rig
Computer meeting min system reqs
Skycube satellite pass within range of receiving station.
*Safety concerns:*
Weather caution
Traffic caution
*
*Outcome*
Verification and completion of Technical requirement 1.1.2
*Instructions:*
<insert screenshot image of computer screen showing signal received from satellite>
*TEST PROCEDURE COMPLETE*
{{toc}}
h2. Test Hardware
* Transmitter for lab and field tests - http://www.ti.com/ww/en/RF-BoosterPack/index.shtml
* Ground Sphere test rig
* 915 MHz transmitter, see link above
* Computer, min system reqs: Windows 7, 1GHz, 1GB RAM
h2. Test 1: Lab Test
Lab test using low power transmitter at 915 MHz to confirm signal reception and system gain (not an AX.25 signal, but close enough). These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Additional Tools Needed:*
Tape Measure
*Safety concerns:*
_________________________
*Outcome*
* Partial verification of technical requirement 1.1.2,
* Confirmation of Ground Sphere performance in best case laboratory conditions
* Confirmation of Ground Sphere performance in simulated orbital conditions
*Instructions:*
# [ ] Turn on computer
# [ ] Turn on the transmitter
# [ ] Plug the GroundSphere USB data connector into an open USB port
# [ ] Plug the GroundSphere power cord into a standard 120v power outlet
# [ ] measure and record the distance between transmitter and receiver: 1 meter
# [ ] Launch the SeeDeR version 0.1 software
# [ ] Tune the transmitter to 915 MHz
# [ ] Set transmitter power to -20dBm _NOTE: (This is a reasonably strong terrestrial signal, and is an unrealistically high power to expect from SkyCube)_
# [ ] Tune the SeeDeR version 0.1 software to receive 915 MHz
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
# [ ] Measure and move the transmitter 3 meters from the GroundSphere antenna ensuring a clear line of sight.
# [ ] Set the transmitter power level to -20dBm. _NOTE: (at this power level, the intent is to get as close as possible to the signal strength that we expect to receive form SkyCube as it flys directly overhead of the antenna, given its orbital parameters <link to TLE file used in calculations> )_
# [ ] Observe the transmitted signal received by GroundSphere
<insert image of laboratory setup>
<insert screenshot image of computer screen showing high power 915 MHz signal>
<insert screenshot image of computer screen showing low power 915 MHz signal>
*TEST PROCEDURE COMPLETE*
h2. Test 2: Field Test
Long range field test using low power transmitter at 915 MHz to verify the predicted link budget (which comes from <insert link to spreadsheet> analysis) and confirm signal reception. It is recommended to conduct this test with at least 2 individuals. These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Additional Tools Needed:*
Laptop computer meeting or exceeding the minimum system requirements.
Portable table or truck bed (on which to set up receiver equip and computer)
Access to 120V a/c power for preamp (generator or car inverter) or DC adapter (vehicle power jack to 2.1mm preamp power jack).
Tape measure or distance finding equipment (GPS?)
*Safety concerns:*
Weather caution
Traffic caution
Portable power for equipment(?)
*Outcome*
* Partial verification of technical requirement 1.1.2,
* Confirmation of Ground Sphere performance in optimal fielded conditions
* Confirmation of Ground Sphere performance at a far distance to simulate orbital conditions
*Instructions:*
> Mission Control Set Up
# [ ] Set up receiver and computer on portable table or in a vehicle with the antenna outside.
# [ ] Turn on computer
# [ ] Plug the GroundSphere USB data connector into an open USB port
# [ ] Plug the GroundShpere power cord into a standard 120v power outlet
# [ ] Launch the SeeDeR version 0.1 software
# [ ] Move to a distance 2650 meters away from the receiver set up with a clear line of sight, then set up the transmitter
# [ ] Record the distance between transmitter and receiver: _______________(in m) Note: If not exactly the above value
> Remote transmit site Set Up
# [ ] Power on and tune the transmitter to 915 MHz
# [ ] Set transmitter power to 0dBm _NOTE: (This is a reasonably strong terrestrial signal, and is an unrealistically high power to expect from SkyCube)_
# [ ] Tune the SeeDeR software to receive 915 MHz
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
# [ ] Set the transmitter power level to -20dBm. _NOTE: (at this power level, we are simulating the signal that we expect to receive form SkyCube as it flys directly overhead of the antenna, given its orbital parameters <link to TLE file used in calculations> )_
# [ ] Observe and capture/record the transmitted signal received by GroundSphere
<insert image of receiver setup>
<insert image of transmitter setup>
<insert screenshot image of computer screen showing high power 915 MHz signal>
<insert screenshot image of computer screen showing low power 915 MHz signal>
*TEST PROCEDURE COMPLETE*
h2. Test 3: From Orbit Test
acquire signal from orbiting cubesat operating on 915 MHz (NPS just launched two cubesats which use the same radio and configuration as SkyCube). Orbital prediction software will need to be used to calculate the appropriate timing for this test. It is only possible to conduct the steps below in anticipation of a 915 MHz signal source flying overhead. These instructions assume that the receiver is already assembled and most recent software is installed. If not, accomplish the next 2 steps.
# Follow the instruction for "GroundSphere Kit assembly"
# Follow the instructions for Operations Manual - "Getting Started and Set up"
Test Date: _________________________________ Test Location: ___________________________________________
Record Test Conditions: _________________________________________________________________________
*Tools Needed:*
Ground Sphere test rig
Computer meeting min system reqs
Skycube satellite pass within range of receiving station.
*Safety concerns:*
Weather caution
Traffic caution
*
*Outcome*
Verification and completion of Technical requirement 1.1.2
*Instructions:*
<insert screenshot image of computer screen showing signal received from satellite>
*TEST PROCEDURE COMPLETE*