2.5 Am^2
Dimensions 180mm×33mm×27mm(±1mm)
Mass 160±20 g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
Tri-axis 0.25 Am^2
Dimensions 90mm×90mm×30mm(±1mm)
Mass 420±30g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
Tri-axis 0.5 Am^2
Dimensions 90mm×90mm×40mm(±1mm)
Mass 540±30g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
75 Am^2
Dimensions 700mm×53mm×48mm(±1mm)
Mass 2.2±0.1kg
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
7.5 Am^2
Dimensions 230mm×33mm×29mm(±1mm)
Mass 320±20 g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
20 Am^2
Dimensions 400mm×35mm×35mm(±1mm)
Mass 900±30 g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
25 Am^2
Dimensions 420mm×35mm×35mm(±1mm)
Mass 1.0±0.1kg
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
35 Am^2 A
Dimensions 400mm×45mm×43mm(±1mm)
Mass 1.0±0.1kg
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
35 Am^2 B
Dimensions 560mm×45mm×43mm(±1mm)
Mass 1.1±0.1kg
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
5 Am^2
Dimensions 210mm×33mm×29mm(±1mm)
Mass 230±20 g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
50 Am^2
Dimensions 500mm×45mm×43mm(±1mm)
Mass 1.3±0.1kg
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
1.5 Am^2
Dimensions 125mm×33mm×29mm(±1mm)
Mass 160±20 g
More info available on request
We offer more than 20 types of magnetorquer rods for various satellite missions.
A Magnetorquer is a satellite attitude control system that interacts with the geomagnetic field to create magnetron momentum and is often used in conjunction with a reaction wheel
- 1
- 2