The [KC01] robot is a [robot prototype] in the ["mini" weight class|RobotWeightClasses]. 

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!! Description

[{Image src='attach/KC01/kc01-top-thumb.jpg' link='attach/KC01/kc01-top.jpg' caption='KC01 Top View' align='right' class='imgFloatRight'}]

__KC01__ (AKA "Kaycee Oh-One", for the ''__K__iwiBot __C__ircuitPlayground Model __1__'') is a ["mini" sized|RobotWeightClasses] robot that without batteries weighs only 163 grams. It's currently an unfinished design and has no sensors, but it has ''plenty of possibilities'' in this regard. See below.

It uses the __Circuit Playground Express__ microcontroller, which is very suitable for people who've never built a robot before, or used a microcontroller. The Circuit Playground board is very useful for non-robot applications as well.

It's highly recommended that you read the [AdaFruit Crickit|https://learn.adafruit.com/adafruit-crickit-creative-robotic-interactive-construction-kit] and the [Circuit Playground Express|https://learn.adafruit.com/adafruit-circuit-playground-express] guides so you can better understand their features, and how the Circuit Playground Express can be programmed.


!! Requirements

Here are the requirements for the robot: 

* around NZ$150 if possible as a base price
* small and lightweight (''[mini robot|MiniRobot]'' class) so that it can be run using a pair of micro gear motors
* to use the Circuit Playground Express and Crickit 
* to use a 5 volt USB battery (commonly available)
* relatively easy to build and program
* provide an expandable base for further experimentation


!! Features

[{Image src='attach/KC01/crickit-circuit-playground-thumb.jpg' link='attach/KC01/crickit-circuit-playground.jpg' caption='Crickit for Circuit Playground' align='right' class='imgFloatRight'}]

The Circuit Playground Express provides:

* 10 x mini NeoPixels, each one can display any color
* 1 x Motion sensor (LIS3DH triple-axis accelerometer with tap detection, free-fall detection)
* 1 x Temperature sensor (thermistor)
* 1 x Light sensor (phototransistor). Can also act as a color sensor and pulse sensor.
* 1 x Sound sensor (MEMS microphone)
* 1 x Mini speaker with class D amplifier (7.5mm magnetic speaker/buzzer)
* 2 x Push buttons, labeled A and B
* 1 x Slide switch
* Infrared receiver and transmitter - can receive and transmit any remote control codes, as well as send messages between Circuit Playground Expresses. Can also act as a proximity sensor.
* 8 x alligator-clip friendly input/output pins
* Includes I2C, UART, 8 pins that can do analog inputs, multiple PWM output
* 7 pads can act as capacitive touch inputs and the 1 remaining is a true analog output
* Green "ON" LED so you know its powered
* Red "#13" LED for basic blinking
* Reset button
* ATSAMD21 ARM Cortex M0 Processor, running at 3.3V and 48MHz
* 2 MB of SPI Flash storage, used primarily with [CircuitPython] to store code and libraries
* MicroUSB port for programming and debugging
* USB port can act like serial port, keyboard, mouse, joystick or MIDI!

[{Image src='attach/KC01/kc01-plate-thumb.jpg' link='attach/KC01/kc01-plate' caption='3mm Delrin platform with motors mounted' align='right' class='imgFloatRight'}]

The Crickit board provides:

* 4x Analog or Digital Servo control, with precision 16-bit timers
* 2x Bi-directional brushed DC motor control, 1 Amp current limited each, with 8-bit PWM speed control (or one stepper)
* 4x High current "Darlington" 500mA drive outputs with kick-back diode protection. For solenoids, relays, large LEDs, or one uni-polar stepper
* 4x Capacitive touch sensors with alligator-pads
* 8x Signal pins, digital in/out or analog inputs
* 1x NeoPixel driver with 5V level shifter
* 1x Class D, 4-8 ohm speaker, 3W-max audio amplifier



!! Bill of Materials

Below is the Bill of Materials, with an estimated cost of __NZ$156__. This doesn't include miscellaneous
parts, wire, connectors, etc., or __shipping costs and import duties__ (which can be significant). 

|| Count || Item || Each || Total Price* || Vendor
| 1x | [Circuit Playground Express|https://www.adafruit.com/product/3333]    | US$25 | NZ$37 | AdaFruit
| 1x | [Crickit for Circuit Playground|https://www.adafruit.com/product/3093] | US$30 | NZ$45 | AdaFruit
| 2x | [Micro Metal Gearmotor with Push Header Shim – 298:1|https://shop.pimoroni.com/products/micro-metal-gearmotor-with-motor-shim?variant=24169921671] | £6 | NZ$23.40 | Pimoroni (from Pololu)
| 1x | [Micro Metal Gearmotor Bracket (Pair)|https://shop.pimoroni.com/products/pimoroni-gearmotor-bracket-pair] (to connect to chassis) | £3.90 | NZ$7.60 | Pimoroni
| 1x | 90mm x 90mm chassis plate (2-4mm thick wood or plastic: nylon, polycarbonate, Delrin or ) | NA | NZ$5 | Macplas or Cactus Plastics
| 1x | USB battery | NA | NZ$25 (est) | anywhere
| 1x | [1/2 inch – Pololu Ball Caster|https://shop.pimoroni.com/products/pololu-ball-caster-with-3-4-metal-ball?variant=415237741] | £2.10 | NZ$4.10 | Pimoroni
| 1x | [Moon Buggy Wheels - Pair|https://shop.pimoroni.com/products/moon-buggy-wheels-pair] | £4.50 | NZ$8.77 | Pimoroni
|| Total | | | __NZ$156__
%%small
''* total price shown is total in New Zealand dollars for row''
%%

Pimoroni has the option of using the UK Post, which is relatively cheap, whereas AdaFruit's shipping is more expensive (even if their prices are in US dollars and tend to be lower).


!! Options

* AdaFruit sell some nice [90:1 gearbox motors|https://www.adafruit.com/product/3802] for US$5.95
* there are many options for wheels - just be sure you get some that match the 3mm shafts of whatever motors you choose

[{Image src='attach/KC01/original-motor-thumb.jpg' link='attach/KC01/original-motor-thumb.jpg' caption='Original Push Header Shim' align='right' class='imgFloatRight'}]

[{Image src='attach/KC01/micro-gear-mod-thumb.jpg' link='attach/KC01/micro-gear-mod.jpg' caption='Modified Push Header Shim' align='right' class='imgFloatRight'}]

A very low-cost modification is to un-solder the right angle pins of the motor's ''Push Header Shim'' and replace them with a two-pin straight header. If you're using (for example) [Jumper Jerky|https://shop.pimoroni.com/products/jumper-jerky-junior?variant=1076482185] or some other type of solderless connectors, the original shim design leaves the plastic connectors hanging down vertically from the motors, significantly reducing the floor clearance (down to about 8mm). If your robot is only operating on a flat wooden, concrete or linoleum floor then this modification is probably not necessary.


!! Upgrades

If you want to use [odometry], you can __upgrade__ by buying the motor encoders and the motors ''without'' the Push Header Shim (which is incompatible with the motor encoders as they both solder to the same place). You'll want the extended back shaft version.

* [Magnetic Encoder Pair Kit for Micro Metal Gearmotors, 12 CPR, 2.7-18V (HPCB compatible)
|https://shop.pimoroni.com/products/magnetic-encoder-pair-kit-for-micro-metal-gearmotors-12-cpr-2-7-18v-hpcb-compatible]
* [Micro Metal Gearmotor (Extended back shaft) – 298:1
|https://shop.pimoroni.com/products/micro-metal-gearmotor-extended-back-shaft?variant=3073681089]

There are a variety of gear ratios available: 11:1, 20:1, 50:1, 298:1 and 1006:1. This will effect both the upper speed of the motor and its torque (power). I chose the 298:1 because I want my robot to be a bit slower and stronger. The 50:1 might work but if you have to reduce the power sent to the motor in order to get it to drive slow enough, it won't have much torque. The choice of gear ratio is always a __compromise__.

Other upgrades include adding sensors and IO devices to any of the above-listed connections on the Crickit board.

!! Notes, Known Questions and/or Issues

* Circuit Playground requires __exactly__ a 5 volt supply (so AA/AAA batteries are not suitable)
* what will we use for the free-wheeling __caster__? It needs to be between 20-25mm total height
* this robot is pretty small and likely __cannot handle transitions between carpet and floor__, i.e., requires a smooth operating surface
* The battery is meant to be held between the Crickit and the platform. This means __you'll need longer standoffs__, long enough to provide clearance ford the battery. I only had some 10mm ones handy, and my USB battery is 21mm thick (and the solder pins protrude about 1mm from the bottom of the Crickit's circuit board) so I couldn't mount my battery. Depending on the size of your battery you'll need probably some 25mm standoffs, or make some out of long 2.5mm bolts and some copper or aluminium tubing (which you can get at a hobby store or Pete's Emporium)
* depending on your battery choice, this robot may have __relatively limited battery life__ (is this really an issue?)
* I recommend putting a bit of light oil on the motor shafts before you push them into the Moon Buggy wheels, as they go on very tight. 
* Also, the wheels have a __mysterious inner design__ that's not mentioned on its product page, in that you can push the motor shaft in from either side __but the behaviour is different__. On one side it's as normal; on the other, if you only push the shaft in half way you'll get a clutch-like action, where the orange inner wheel will chatter and spin if overdriven rather than stall the motor. Feature or bug? I think: feature. 

The __total cost__ of all of the major components of this robot (not including shipping) is about NZ$160. This is more than the original $100 goal, but represents a very good value with lots of opportunities for experimentation and exploration in both [hardware] and [software]. If there's call for an even cheaper robot I can have a go at another design, using either an Arduino or a Raspberry Pi Zero W (the latter has WiFi so we can [ssh into it remotely|UsingSsh]).

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[{Tag RobotPrototype}]