the Power Pack

! CAUTION: At least two installers are required due to the weight and size of the hood.

Remove support screw from top of Power Pack before installing into cabinet. FIG 2b

1.Place 8” round adapter on top of power pack and secure with (4) M4x8 screws. (FIG 3)

2.Install optional AK088xAS Stainless Steel Liner under custom hood opening. Review manual included with liner for more details.

3.If no liner is used cut out an opening in the bottom of the cabinet by following the dimensions in (FIG 1).

5. Lift Power Pack into opening and secure to bottom of cabinet using

(4) M4 stainless steel screws, (1) in each corner; see (FIG 2).

www.zephyronline.com

AK8800Ax

261/16”

C/L

3/4

C/L

14

 

cabinet bottom cut-out size

FIG 1

Installing

 

NOTE: Wood blocking may need to be added to cabinet base if

 

additional support is needed.

6.

Install 8” round duct work and seal with duct tape. Depending on

 

the contruction of the custom hood, the duct work may need to be

 

installed on top of the Power Pack prior to mounting the Power Pack

 

inside your custom hood.

7.

Install electrical.

minimum

3/4” wood base

Ductwork

elec.

Front View

Installation

8. Remove all packing materials before using Power Pack.

Switch power on and check for leaks around duct tape.

FIG 3

metal or other non

(4) M4 ss wood screws

combustible material

(1) in each corner

FIG 2

remove support screw

FIG 2b

10

Page 12
Image 12
Zephyr AK8800AG, AK8800AS manual Additional support is needed, Remove all packing materials before using Power Pack

AK8800AS, AK8800AG specifications

The Zephyr AK8800AG and AK8800AS are cutting-edge microcontrollers designed for demanding applications in various industries. Their robust architecture and array of features make them suitable for tasks requiring high performance, efficiency, and reliability.

One of the primary features of the AK8800 series is its advanced ARM Cortex-M4 core, which provides a performance boost for processing complex algorithms while maintaining low power consumption. This makes the AK8800AG and AK8800AS ideal for battery-operated devices where energy efficiency is crucial. The 32-bit architecture supports high-speed processing, ensuring that real-time applications run smoothly without lags or interruptions.

Both models come equipped with an extensive memory system. They include up to 512KB of Flash memory and 128KB of SRAM, allowing for the storage of large programs and data sets. This substantial memory capacity enables developers to implement rich features in their applications without worrying about memory constraints. Additionally, the microcontrollers support external memory interfaces, facilitating the connection of additional storage options when more capacity is needed.

The AK8800 series is fortified with a wide range of integrated peripherals. These include a high-performance ADC (Analog-to-Digital Converter), SPI (Serial Peripheral Interface), I2C (Inter-Integrated Circuit), UART (Universal Asynchronous Receiver-Transmitter), and GPIO (General Purpose Input/Output) pins. These peripherals enhance connectivity and allow for seamless integration with various sensors, actuators, and other devices, making the AK8800AG and AK8800AS versatile solutions for IoT applications, industrial automation, and consumer electronics.

In terms of connectivity, the Zephyr AK8800 series supports multiple communication protocols, including wireless technologies. This aspect is essential for modern applications requiring remote communication, enabling developers to create connected solutions effortlessly.

Moreover, the AK8800AG and AK8800AS microcontrollers are built to withstand harsh operating environments. They feature rugged designs and are able to operate in a wide temperature range, making them suitable for industrial settings where reliability is paramount.

In conclusion, the Zephyr AK8800AG and AK8800AS microcontrollers represent an excellent choice for developers seeking powerful and flexible solutions for their embedded systems. With their advanced processing capabilities, ample memory, comprehensive peripheral support, and robust design, they are poised to meet the challenges of our increasingly connected world. Whether for IoT applications, industrial automation, or consumer electronics, these microcontrollers provide the performance and reliability needed for success.