Hardware Identification & Torque Specifications

Common Hardware Types

Hex Head Capscrew

Washer

 

 

Lockwasher

Carriage Bolt

 

 

Hex Nut

Standard Hardware Sizing

When a washer or nut is identified as 1/2”, this is the Nominal size, meaning the inside diameter is 1/2 inch; if a second number is present it represent the threads per inch

When bolt or capscrew is identified as 1/2 - 16 x 2”, this means the Nominal size, or body diameter is 1/2 inch; the second number represents the threads per inch (16 in this example, and the final number is the body length of the bolt or screw (in this example 2 inches long).

The guides and ruler furnished below are designed to help you select the appropriate hardware and tools.

0

 

1/4

Nut, 1/2”

1/2

Inside

Diameter

3/4

 

1

 

1/4

 

1/2

 

3/4

Screw, 1/2 x 2

2

Body

 

1/4

Diameter

 

1/2

Body

Length

3/4

 

3

 

1/4

 

1/2

 

3/4

 

4

 

Torque Specification Chart

FOR STANDARD MACHINE HARDWARE (Tolerance ± 20%)

 

Hardware

 

No

 

 

 

 

 

 

 

 

Marks

 

 

 

 

 

 

 

 

Grade

SAE Grade 2

SAE Grade 5

SAE Grade 8

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Size Of

in/lbs

 

 

in/lbs

 

 

in/lbs

 

 

 

 

Hardware

ft/lbs

 

Nm.

ft/lbs

Nm.

ft/lbs

 

Nm.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

8-32

 

19

 

2.1

30

3.4

 

41

4.6

 

8-36

 

20

 

2.3

31

3.5

 

43

4.9

 

10-24

 

27

 

3.1

43

4.9

 

60

6.8

 

10-32

 

31

 

3.5

49

5.5

 

68

 

7.7

 

1/4-20

 

66

 

7.6

8

10.9

 

12

16.3

 

1/4-28

 

76

 

8.6

10

13.6

 

14

19.0

 

5/16-18

 

11

 

15.0

17

23.1

 

25

34.0

 

5/16-24

 

12

 

16.3

19

25.8

 

27

34.0

 

3/8-16

 

20

 

27.2

30

40.8

 

45

61.2

 

3/8-24

 

23

 

31.3

35

47.6

 

50

68.0

 

7/16-14

 

30

 

40.8

50

68.0

 

70

95.2

 

7/16-20

 

35

 

47.6

55

74.8

 

80

108.8

 

1/2-13

 

50

 

68.0

75

102.0

 

110

149.6

 

1/2-20

 

55

 

74.8

90

122.4

 

120

163.2

 

9/16-12

 

65

 

88.4

110

149.6

 

150

204.0

 

9/16-18

 

75

 

102.0

120

163.2

 

170

231.2

 

5/8-11

 

90

 

122.4

150

204.0

 

220

299.2

 

5/8-18

 

100

 

136

180

244.8

 

240

326.4

 

3/4-10

 

160

 

217.6

260

353.6

 

386

525.0

 

3/4-16

 

180

 

244.8

300

408.0

 

420

571.2

 

7/8-9

 

140

 

190.4

400

544.0

 

600

816.0

 

7/8-14

 

155

 

210.8

440

598.4

 

660

897.6

 

1-8

 

220

 

299.2

580

788.8

 

900

1,244.0

 

1-12

 

240

 

326.4

640

870.4

 

1,000

1,360.0

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

NOTES

1.These torque values are to be used for all hardware excluding: locknuts, self-tapping screws, thread forming screws, sheet metal screws and socket head setscrews.

2.Recommended seating torque values for locknuts:

a.for prevailing torque locknuts - use 65% of grade 5 torques.

b.for flange whizlock nuts and screws - use 135% of grade 5 torques.

3.Unless otherwise noted on assembly drawings, all torque values must meet this specification.

Wrench & Fastener Size Guide

 

 

 

7/16

1/2

 

 

3/8

DIA.

1/4

5/16

DIA.

 

1/4” Bolt or Nut

5/16” Bolt or Nut

3/8” Bolt or Nut

7/16” Bolt or Nut

1/2” Bolt or Nut

Wrench—7/16”

Wrench—1/2”

Wrench—9/16”

Wrench (Bolt)—5/8”

Wrench—3/4”

 

 

 

Wrench (Nut)—11/16”

 

Page 57
Image 57
Simplicity 85903, 85632, 85668 manual Hardware Identification & Torque Specifications

85668, 85632, 85903 specifications

Simplicity 85903, 85632, and 85668 represent a series of advanced microcontroller development boards designed to facilitate rapid prototyping and innovation in various embedded applications. These boards are part of the extensive Simplicity Studio infrastructure from Silicon Labs, which provides developers with a comprehensive set of tools to streamline the process of designing and deploying new technologies.

The Simplicity 85903 board is notable for its efficiency in low-power applications. It is equipped with the EFR32MG21, a powerful 32-bit ARM Cortex-M33 processor that supports a range of connectivity options, including Bluetooth 5 and Zigbee. This makes it an ideal choice for IoT applications that require efficient battery life while maintaining strong wireless communication capabilities. The board also features an integrated RF frontend, allowing for ease of signal transmission and reception, which is crucial in smart home integration and industrial automation.

On the other hand, the Simplicity 85632 and 85668 boards are designed with a focus on enhanced processing power and robust features for more demanding applications. Both utilize the EFR32BG22 chip, which has improved performance parameters and provides support for advanced protocols. They are optimally configured for applications like smart meters, environmental sensors, and other smart devices that require reliable connectivity and data processing.

Key characteristics of these boards include their versatile power management options that extend operational lifespans in battery-powered applications. They are built with onboard debugging capabilities and a rich array of I/O interfaces, including GPIO, ADC, and PWM, allowing developers to easily connect a range of peripherals and sensors.

Moreover, all three Simplicity boards are designed with user-friendly software development environments. The Simplicity Studio integrates various libraries and APIs, making it straightforward for both novice and experienced developers to create applications efficiently. The availability of extensive documentation and community support further enhances the user experience, ensuring that any issues can be addressed swiftly.

In summary, Simplicity 85903, 85632, and 85668 development boards are integral for developers interested in creating innovative IoT solutions. Their combination of low power consumption, advanced connectivity options, and rich development resources positions them as powerful tools in the expanding landscape of embedded systems.