A = 8-inch (20.32 cm)

B =12 feet (3.656 meters)

NOTE 1 Opening from combustible materials must be 2-inches (5.08 cm) larger than the duct (all the way around). The duct must be centered within this opening.

NOTE 2 Distance should be 2 times the diameter of the duct to the nearest obstruction.

Multiple Dryer Venting with 8-Inch (20.32 cm) Diameter

640 cfm (18.12 cmm) Exhaust Connections at Common Duct

NUMBER OF DRYERS

4

3

2

1

MINIMUM CROSS-

SQ IN

164

120

80

54

SECTIONAL AREA

SQ CM

1058

774.2

516.1

348.4

MINIMUM ROUND

IN

14

12

10

8

DUCT DIAMETER

CM

35.56

30.48

25.4

20.32

Electrical Information ________________

Electrical Requirements

All electrical connections must be made by a properly licensed and competent electrician. This is to ensure that the electrical installation is adequate and conforms to local, state, and national regulations or codes of the country of origin. In the absence of such codes, all electrical connections, materials, and workmanship must conform to the applicable requirements of the National Electrical Code ANSI/NFPA NO. 70-LATEST EDITION or in Canada, the Canadian Electrical Codes Parts 1 & 2 CSA C22.1-1990 or LATEST EDITION.

Important: Failure to comply with these codes or ordinances, and/or the requirements stipulated in this manual can result in personal injury or component failure.

Note: Component failure due to improper installation will void the warranty.

Each dryer should be connected to an independently protected branch circuit. The dryer must be connected with copper wire only. Do not use aluminum wire, which could cause a fire hazard. The copper conductor wire/cable must be of proper ampacity and insulation in accordance with electric codes for making all service connections.

Note: The use of aluminum wire will void the warranty.

An individual ground circuit must be provided to each dryer, do not daisy chain.

Component failure due to improper voltage application will void the warranty.

The manufacturer reserves the right to make changes in specifications at any time without notice or obligation.

Important: A separate protected circuit must be provided to each dryer.

The dryer must be connected to the electric supply shown on the data label. In the case of 208 VAC or 240 VAC, the supply voltage must match the electric service specifications of the data label exactly.

The wire size must be properly sized to handle the related current.

Warning

!208 VAC and 240 VAC are not the same. Any damage done to dryer components due to

improper voltage connections will automatically void the warranty.

Warning (Gas Models Only)

!Dryers built for use with a voltage between 200 and 240 must verify the input voltage during

installation. If the nominal

 

 

 

voltage is outside of the

TERM

LINE VOLTAGE

medium tolerances shown

 

 

 

50 Hz

60 Hz

on the diagram below,

 

 

 

 

260

283

adjust the autotransformer,

HIGH

226

249

located near the burner

 

 

239

260

assembly. To adjust the

MED

208

230

autotransformer wiring,

 

place the red wire on the

LOW

217

236

appropriate tap (HIGH,

189

208

 

MED, LOW) of the

autotransformer. For additional wiring details, refer to the electrical diagram located on the inside of the control panel.

Electrical Service Specifications

Gas and Steam Models Only

ELECTRICAL SERVICE SPECIFICATIONS

IMPORTANT: 208 VAC AND 230/240 VAC ARE NOT THE SAME. When ordering, specify exact voltage.

NOTES: A. When fuses are used they must be dual element, time delay, current limiting, class RK1 or RK5 ONLY. Calculate/determine correct fuse value, by applying either local and/or National Electrical Codes to listed appliance amp draw data.

B.Circuit breakers are thermal-magnetic (industrial) motor curve type ONLY. For others, calculate/verify correct breaker size according to appliance amp draw rating and type of breaker used.

C.Circuit breakers for 3-phase (3ø) dryers must be 3-pole type.

SERVICE

PHASE

WIRE

APPROX. AMP DRAW

CIRCUIT

VOLTAGE

SERVICE

 

 

BREAKER

 

60 Hz

50 Hz

 

 

Gas

 

 

120

2

25.5

35

208

2

19.8

25

220

2

14.2

12.3

20

230

2

12.2

20

240

2

13.4

20

 

 

Steam

 

 

120

2

22.2

30

200

2

12.0

20

208

2

12.0

20

220

2

12.0

9.6

20

230

2

10.0

20

240

2

11.3

20

10/14/08

113615 -2

www.amdry.com

11

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ADC HBG76 Electrical Information, Electrical Requirements, Electrical Service Specifications Gas and Steam Models Only

HBG76 specifications

The ADC HBG76 is a state-of-the-art device designed for high-performance data acquisition and processing. It is primarily aimed at various applications in industries such as telecommunications, aerospace, military, and industrial automation. The HBG76's advanced features, robust technologies, and exceptional characteristics make it a standout choice for professionals requiring precise and reliable data handling.

One of the hallmark features of the HBG76 is its high-speed sampling capabilities. The ADC can handle sample rates exceeding 1 GSPS (giga samples per second), enabling it to capture rapid signal dynamics with exceptional fidelity. This capability is particularly valuable in applications where timing is crucial, such as radar systems or high-frequency trading in finance.

The HBG76 incorporates cutting-edge analog-to-digital conversion technology, ensuring that the signal integrity is maintained throughout the conversion process. With a resolution of up to 16 bits, the ADC delivers impressive accuracy and detail, facilitating high-quality signal representation. This feature is essential for applications requiring precise measurement and analysis of data.

Another significant aspect of the HBG76 is its versatility in connectivity options. The device supports various communication interfaces, including USB, Ethernet, and SPI, making it compatible with a wide range of systems. This flexibility allows users to integrate the ADC seamlessly into existing hardware setups, enhancing overall efficiency and ease of use.

In terms of power efficiency, the HBG76 is designed with advanced low-power technologies that optimize its energy consumption without compromising performance. This feature is particularly beneficial for battery-operated devices and remote applications where power availability may be limited.

The robust design of the HBG76 ensures longevity and reliability in demanding environments. Its rugged casing provides protection against dust, moisture, and temperature extremes, making it suitable for outdoor use and harsh industrial settings.

Overall, the ADC HBG76 stands out as a powerful tool for data acquisition and processing, boasting high-speed sampling, excellent resolution, versatile connectivity, energy efficiency, and durability. Whether in research laboratories, industrial monitoring, or advanced telecommunications systems, the HBG76 is engineered to meet the evolving needs of modern applications, driving innovation across diverse sectors.