Keyestudio CNC Kit KS096 A4988 12V GRBL NANO (Arduino-Compatible) Flux Workshop

Description

Highlights
Brands
Keyestudio NANO V4 CNC Kit (Arduino-Compatible)
Features
Flux SKU:
LCAA100015
Length (mm):
72
Width (mm):
58
Height (mm):
15
Form Factor:
NANO
Brand:
Keyes
Brand Series:
Keyestudio
Main Colour:
Black
Country of Manufacture:
China
MPN:
KS0096
UPC:
Does Not Apply
Minimum Operating Temperature:
-40°C
Maximum Operating Temperature:
85°C
Number of Items:
1
Parts list:
1 Keyestudio NANO (Arduino-compatible)
1 NANO CNC Sheild
3 4988 Driver
1 30cm USB - Mini USB Cable
Hardware Compatibility:
arduino nano
Pin Pitch:
2.54mm
Pin Arrangements:
Abort/Hold/Resume
Emergency stop
3 Axis end stops
I2C
UART
Jumper based step setting
14 Digital I/O pins
6 Analogue I/O pins
Reset Switch
Serial (3.3 - 5V Switch)
ICSP
Logic Level Voltage:
5V
Input DC Voltage:
12V External motor power
Drive Current:
40mA per I/O pin
50mA per 3.3V pin
2A with heatsink (A4988)
Control Type:
Step/Direction
Step Options:
1
1/2
1/8
1/16
Mounting Hole Size:
M3
Mounting Dimensions:
56/49mm
Over heat Protection:
Yes
Format:
USB
Chipset:
CH340G
Chipset MPN:
ATmega328P
A4988
Clock Clock:
16MHz
Flash Memory:
32KB
SRAM Memory:
2KB
EEPROM Memory:
1KB
Noted Onboard Components:
Step setting jumpers
Reset switch
4 A4988 Driver socket
Noted Circuit Types/Features:
Adjustable drive current
Noted Software Base/Features:
3 Axis CNC control
Spindle control
Coolant control
Connector Type:
5.5mm DC Jack (2.1mm pin)
3 4988 Sockets
USB - Mini
Description
This kit is ideally suited to converting a simple arduino nano into a CNC machining workhorse. The kit provides 3 axis of control along with connections for limit switches, spindle control, an emergency stop, coolant control and hold buttons. The board is based on the well documented open source the use of GRBL.
The shield is designed to accept 3 A4988 drivers, included. Each drivers step settings can be controlled via the onboard jumper connections. To power the motors a 12V DC supply is required which is then connected to the DC input. The logic on the otherhand is powered from the Arduino itself.
Please do not hesitate to contact us if you require further information regarding the shield's operation.
Images
Our main postal service is the Royal Mail 24. We aim to post same day when orders are received before 15:00 GMT. Orders received after this time will be posted the next business day.
Returns
We accept returns of unwanted, damaged or faulty items within 30 days of purchase.
If you receive a damaged item please message us directly through the eBay messaging system; attach pictures if possible. This will enable us to process the return as fast as possible.
Be aware, if an item is "unwanted", return postage will be paid by the consumer. Furthermore, if a returned "faulty" item is found to not be faulty, postage costs will not be refunded. We are unable to refund the cost of a courier and will only be able to refund return postage on receiving a copy of the postage receipt.
Please ensure when returning an item, adequate packaging is used as we will be unable to process the refund if the items are damaged in the post.
Company
Flux Workshop began trading late 2014, drawing from years of experience and interest in electronics and building CNC machines. With the aim to supply good quality components at reasonable prices that allow you, the customer, to have the confidence to embark on your project.
We are here to help you in any way we can. If you need to make sure a product is right for your needs or how to get the most from a product, please do not hesitate to contact us through the eBay messaging service (response usually within 24 hours).
This kit is ideally suited to converting a simple arduino nano into a CNC machining workhorse. The kit provides 3 axis of control along with connections for limit switches, spindle control, an emergency stop, coolant control and hold buttons. The board is based on the well documented open source the use of GRBL. The shield is designed to accept 3 A4988 drivers, included. Each drivers step settings can be controlled via the onboard jumper connections. To power the motors a 12V DC supply is required which is then connected to the DC input. The logic on the otherhand is powered from the Arduino itself. Be aware, if an item is "unwanted", return postage will be paid by the consumer. Furthermore, if a returned "faulty" item is found to not be faulty, postage costs will not be refunded. We are u