Available with a lead time
Expect dispatch between Dec 30 and Jan 02
Quantity Discounts:
Help your robot find its way with the Swingarm Odometry Pod! It’s a precisely-designed sensor that ups the accuracy of localization when your robot operates autonomously.
Designed from the heft of FTC experience in the goBILDA® R&D team, this Odometry Pod innovates to a higher level than comparable alternatives. The Swingarm Odometry Pod:
The Product Insights show the recommended mounting location and spring tension for a chassis that is as out-of-the-box as this pod. If your chassis has been changed according to your innovative and/or unorthodox implementation, you may need to adjust your mounting or spring tension to ensure accurate tracking.
This pod was designed with FIRST Tech Challenge (FTC) teams, chassis, and—most importantly—FTC fields in mind. The wheel pairs perfectly with the soft tiles that teams must drive on. It can be used on other surfaces, but we recommend verifying its effectiveness before implementing it in operations beyond FTC fields.
We humans have many ways to find ourselves and discover our paths in life. For robots, odometry is the answer. Odometry describes calculations and solutions that help your robot know its location from its travel data in a process called “localization.” Localization is crucial to autonomous operation.
This odometry pod provides precision localization. Unlike encoder-equipped drive motors, whose rotation data doesn’t always reflect the actual motion of a chassis (see the "Why Odometry Pods?" box below), this odometry-dedicated solution is designed to reliably track the position of the chassis.
It functions as a “dead” 48mm diameter omni wheel integrated with an encoder that, when powered via its JST PH connection, outputs the data of the dead wheel’s rotations against the ground as the chassis moves. Since the dead wheel doesn’t rotate otherwise, its rotation—and thus its data output—depends solely on the travel of the chassis.
Equipping an odometry pod to each side of a skid-steer chassis is a perfect way to track the chassis’ overall movement (which is facilitated by the combined input of its two sides). For a chassis with more complex maneuverability, such as a mecanum chassis, a third odometry pod is useful for tracking the additional degree of freedom.
The other half of odometry is the programming that reads the sensor’s input to derive your robot’s position and generate the path forward. To that end, there are plenty of FTC-focused resources for helping your software team get on-track with odometry! One great FIRST step you can take is this page in Game Manual 0.
Many motors (like Yellow Jacket Planetary Gear Motors!) have encoders that output data about their rotation. This can allow your robot to localize based on the rotations of its drive motors. However, your drive wheels may slip if your chassis accelerates too quickly, contacts an object (or another robot), or moves in an unpredictable way. This can cause a build-up of errors that result in your robot veering away from its target.
Fortunately, odometry pods, like the one featured here, allow you to track just the distance traveled instead of how far the motors have turned to get you there.
Dedicated odometric installations (like this one) often take the form of a "dead" (non-driven) wheel integrated with an encoder sensor as part of a "pod" package that tracks and relays information about the wheel's rotations as it travels against a surface. That's why they’re often known as "odometry pods," "dead wheels," or "tracking wheels.”
SKU | Qty | Name |
---|---|---|
N/A | 1 | Swingarm Odometry Pod (48mm Wheel) |
1611-0514-0008 | 2 | 1611 Series Flanged Ball Bearing (8mm ID x 14mm OD, 5mm Thickness) |
2106-4008-0430 | 1 | 8mm REX™ Shaft with E-Clip (Stainless Steel, 43mm Length) |
2800-0004-0010 | 3 | M4 x 0.7mm Zinc-Plated Socket Head Screw (10mm Length) |
2800-0004-0020 | 1 | M4 x 0.7mm Zinc-Plated Socket Head Screw (20mm Length) |
2812-0004-0007 | 2 | M4 x 0.7mm Zinc-Plated Steel Nylon-Insert Locknut |
1502-0006-0120 | 1 | 1502 Series 4mm ID Spacer (6mm OD, 12mm Length) |
1522-0010-0040 | 1 | 1522 Series 8mm ID Spacer (10mm OD, 4mm Length) |
3804-0707-0600 | 1 | JST PH Extension (4-Pos JST PH, MH-FC to MH-FC, 600mm Length) |
2915-0001-0003 | 1 | Extension Spring (6.5mm OD, 1.5kg Max Load, 39-72mm Length) |
Weight | 121g (includes spring, wire, and mounting hardware) |
---|---|
Wheel Material | Plastic with Rubber Rollers |
Wheel Durometer | 50A |
Encoder Connector Type | 4-Pos JST PH [FH-MC] |
Encoder Resolution | 2000 Countable Events per Revolution |
Exact shipping can be calculated on the view cart page (no login required).
Products that weigh more than 0.5 KG may cost more than what's shown (for example, test equipment, machines, >500mL liquids, etc).
We deliver Australia-wide with these options (depends on the final destination - you can get a quote on the view cart page):
Non-metro addresses in WA, NT, SA & TAS can take 2+ days in addition to the above information.
Some batteries (such as LiPo) can't be shipped by Air. During checkout, Express Post and International Methods will not be an option if you have that type of battery in your shopping cart.
International Orders - the following rates are for New Zealand and will vary for other countries:
If you order lots of gear, the postage amount will increase based on the weight of your order.
Our physical address (here's a PDF which includes other key business details):
Unit 18, 132 Garden Grove Parade
Adamstown
NSW, 2289
Australia
Take a look at our customer service page if you have other questions such as "do we do purchase orders" (yes!) or "are prices GST inclusive" (yes they are!). We're here to help - get in touch with us to talk shop.
Have a product question? We're here to help!
Makers love reviews as much as you do, please follow this link to review the products you have purchased.
Product Comments