Eurotech Advme1314 Owner's manual

Brand: Eurotech

Model: Advme1314

Type: Owner's manual

128-channel Digital Output Board

Manual

Preface

Thank for choosing the Advme1314 Please read this manual before using the Advme1314 so that you may obtain the

greatest benefit from using the device.

This manual presents the specifications, functions, and method of use of the 128-channel Digital Output Board

Advme1314.

Advanet Inc. has made every effort to carefully inspect each product and has taken great care to package and to ship

the product. In the unlikely event of the product’s failure to operate normally due to problems in shipping or other-

wise, the company will repair or replace the product at its own responsibility.

Contact Advanet at the following address if you have any questions.

Inquiries

Sales Division

Headquarters

616-4 Tanaka, Kita-ku, Okayama 700-0951 Japan

TEL : 086-245-2861 FAX : 086-245-2860

Tokyo Office KDX Kaji-cho 4F , 3-5-2 Kanda Kaji-cho,

Chiyoda-ku, Tokyo 101-0045 Japan

TEL : 03-5294-1731 FAX : 03-5294-1734

INTERNETURL http://www.advanet.co.jp/

1. In order to improve the product, the contents of this document as well as product specifications are subject to change without notice.

2. This document does not give permission to the implementation of patents or other rights held by Advanet or third parties.

3. Reproduction of all or part of this document without Advanet’s permission is prohibited.

2009 Advanet Inc.

Precautions in Use

Please read this manual before using the product in order to insure its safe use.

Do not place the product in a

location where it can fall or be

subject to vibration or impact

because this may cause device

failure.

Protect the device from vibration and impact.

Do not modify the device.

For safety reasons, under no

circumstances should you

modify the device. Advanet will

not repair products that have

been modified.

Protect the product from water

and chemicals.

Contact between the product

and water or chemicals can

result in product failure,

electrocution, or fire.

Protect the product from

foreign material.

Make sure that foreign

material does not get into the

product during use, storage, or

transport because this can

result in product failure.

Take precautions in handling to insure

that you are not injured.

The sharp projections on this

product may cause injury. Take

care in handling this product in

order to avoid injury.

Do not disassemble the product.

In order to maintain

guaranteed product

performance, do not under any

circumstances disassemble

this product.

Keep the product away from radios and TVs.

Do not use the product near

radios, television sets, or other

devices generating strong

magnetic or electrical fields.

This could result in failure or

malfunction.

Keep the product away from

flame, humidity, and direct sunlight.

Do not use or store the product

in any of the following locations

as this could result in product

failure.

Places where there is fire.

Locations high in humidity

or exposed to rain

Locations exposed to direct

sunlight

Dusty or dirty locations

Locations containing

excessive water or

chemical vapors

Precautions in use

Please read this manual before using the product in order to insure its safe use.

Install the product in well-ventilated locations.

Install the product in well-

ventilated locations to

efficiently disperse heat

generated by the product.

Remove the power plug from the receptacle

when not using the product.

Turn off the main switch and

remove the power plug from

the receptacle when not using

the product, or there is the risk

of lightning strike.

Be sure to use the device within rated parameters.

Be sure to use the product

within the ratings specified in

this manual. Failure to do so

may result in malfunction.

Cleaning the product

If the product becomes dirty,

wipe it with a dry soft cloth. A

thinned neutral cleaner may be

used if the product is

particularly dirty. Do not use

benzene, thinners, or other

solvents under any

circumstances.

Be sure to ground the product in order

to prevent electrocution.

Be sure to ground the product

by connecting it to a 3-pole AC

receptacle or by using an AC

receptacle having a grounding

terminal.

Be sure to dispose of the product properly.

Use appropriate methods for

handling industrial wastes

when disposing of this product.

Please contact Advanet for repair of the product.

Please contact your retail

dealer or Advanet when repairs

are necessary.

Make sure that the product is not miswired.

Failure to wire the product

correctly can result in

malfunction or fire. Read this

manual and wire the product

correctly.

Static electricity may cause malfunction.

This product comprises

electronic parts that are highly

susceptible to static electricity.

Static electricity can cause the

product to malfunction. Take

care not to touch any of the

terminals, connectors, ICs, or

other parts with the hands.

When you believe the product to be malfunctioning

Stop using the product if you

believe it is malfunctioning.

Continuing to use a

malfunctioning product can

cause the malfunction to

spread to other products and

can cause short circuits or fire.

Content

1. Prior to use ............................................................................................................................................................................... 6

1.1 Period and scope of warranty ........................................................................................................................................... 6

1.2 Scope of service ................................................................................................................................................................ 6

2. Specification ............................................................................................................................................................................ 7

2.1 Mechanical Specifications ................................................................................................................................................. 7

2.2 Electric Specifications ....................................................................................................................................................... 7

2.2.1 Power Supply ............................................................................................................................................................. 7

2.2.2 Digital Output ............................................................................................................................................................ 7

2.2.3 Isolation ..................................................................................................................................................................... 7

2.2.4 Interrupt ..................................................................................................................................................................... 7

2.3 Bus Interface ...................................................................................................................................................................... 7

2.4 Environment Specification ................................................................................................................................................ 7

2.5 Others ................................................................................................................................................................................. 7

3. Configuration ........................................................................................................................................................................... 8

4. Installation ................................................................................................................................................................................ 9

4.1 Layout of Parts ................................................................................................................................................................... 9

4.2 Base Address ..................................................................................................................................................................... 10

4.3 Output Connector ............................................................................................................................................................. 10

4.4 Others ................................................................................................................................................................................13

4.5 Output Signal Connection ................................................................................................................................................ 13

4.5.1 Output Circuit ..........................................................................................................................................................13

4.5.2 Example of Connection ............................................................................................................................................ 14

4.6 Before Power-On .............................................................................................................................................................. 15

5. Register ...................................................................................................................................................................................16

5.1 Register / Table ................................................................................................................................................................. 16

5.2 Board ID Register .............................................................................................................................................................17

5.3 Data Register ....................................................................................................................................................................18

5.3.1 DOUT [0 - 15] .......................................................................................................................................................... 18

5.3.2 DOUT [16 - 31] ........................................................................................................................................................ 19

5.3.3 DOUT [32 - 47] ........................................................................................................................................................ 19

5.3.4 DOUT [48 - 63] ........................................................................................................................................................ 20

5.3.5 DOUT [64 - 79] ........................................................................................................................................................ 21

5.3.6 DOUT [80 - 95] ........................................................................................................................................................ 21

5.3.7 DOUT [96 - 111] ...................................................................................................................................................... 22

5.3.8 DOUT [112 - 127] .................................................................................................................................................... 23

5.3.9 Board Reset .............................................................................................................................................................. 23

6. Sample Program ...................................................................................................................................................................... 24

6.1 Terminology ...................................................................................................................................................................... 24

6.1.1 Byte Port ...................................................................................................................................................................24

6.1.2 Word Port .................................................................................................................................................................. 24

6.1.3 Channel ..................................................................................................................................................................... 25

6.2 Source Program ................................................................................................................................................................. 28

6.2.1 Output by Channel ................................................................................................................................................... 28

6.2.2 Output by Byte .........................................................................................................................................................29

6.2.3 Output by Word ........................................................................................................................................................ 29

6.2.4 Reading of The Output Port (by Byte) ..................................................................................................................... 30

6.2.5 Reading of The Output Port (by Word) .................................................................................................................... 31

6.2.6 Output Port Reset ..................................................................................................................................................... 32

6.2.7 Reading of the Board ID .......................................................................................................................................... 32

6.3 Precautions for Operating The Bits .................................................................................................................................. 33

7. Appendix ................................................................................................................................................................................. 34

1. Prior to use

1.1 Period and scope of warranty

Delivered products are under warranty for a period of one year after delivery.

During the period of warranty, the vendor will have his own to responsibility replace or repair malfunctioning

parts if the product malfunction is the responsibility of the vendor.

However, this warranty does not apply under the following circumstances:

(1) If the user handles or uses the product in an inappropriate way

(2) If the malfunction is caused by something other than the delivered product

(3) If the delivered product has been modified or repaired by anyone other than the vendor

(4) Due to natural disaster, accident, or other reason not the responsibility of the vendor

In this context, the term “warranty” means solely a warranty of the individual delivered product, and does not

include any compensation for the damage caused by malfunction of the delivered product.

1.2 Scope of service

The service costs such as the costs of sending technical personnel are not included in the price of the delivered

product. Customers will be charged for the following costs:

(1) Assistance with installation adjustments and test running

(2) Maintenance inspections, adjustments, and repairs

(3) Technical assistance and technical training

2. Specification

2.1 Mechanical Specifications

VME Bus Double height, single slot

Weight ............... 286 [g]

Board size ......... 174 × 262 × 20 [mm] (protrusions not included)

2.2 Electric Specifications

2.2.1 Power Supply

Supplied from the VME bus

Supply Voltage ................... +5 [V] ±5 [%]

Consumption Current ......... 2 [A] (max.)

2.2.2 Digital Output

Number of channels ...................... 128 channels (8 channels per common x 16)

Output type .................................... Photo-coupler insulation + Open collector output

Output withstanding voltage .......... DC50V

Output saturation voltage .............. 1.9 [V] (max.)

Load current .................................. 200 [mA] (max.)

Photo-coupler ................................ TLP181GB (TOSHIBA) or equivalent

Output transistor ............................ 2SD1005 (NEC) or equivalent

2.2.3 Isolation

A photo-coupler is used for isolation between output banks and between digital output circuit and the VME

bus (system).

The “bank” here means a batch of 8 signals, such as DOUT0-DOUT7, among output signals.

2.2.4 Interrupt

Interrupt is not used.

2.3 Bus Interface

Conforms to VME bus

A16,D16,D08 (EO)

Access by 16 bits of data width or 8 bits is possible by AM cord 29H and 2DH.

VME bus Revision C.3

2.4 Environment Specification

Operating Temperature Range ...... 0 [°C] to 55 [°C]

Operating Humidity Range ............ 35 [%] to 90 [%] RH (non-condensing)

2.5 Others

When the power is turned on or when reset is executed, a malfunction preventing function of the photo-coupler is

activated and the output is turned off.

3. Configuration

[Figure 3] Block Diagram of Advme1314

DS0

DS1

IACK

LWORD

SYSCLK

DTACK

D0 to 15

CN1

DOUT0

DOUT63

CN2

DOUT64

DOUT127

Output

Circuit

Output Port

Output

Circuit

Output Port

DTACK

Outbreak

Circuit

Control Logic

Address

Decoder

VME Bus

Read back

4. Installation

4.1 Layout of Parts

Figure 4.1 shows the layout of switches and connectors.

 DSW1,DSW2 .................... Base address setting

 P1 ....................................... VME bus connector

 CN1,CN2 ........................... Digital Output connector

[Figure 4.1] Layout of Parts

CN2

CN1

DSW1

DSW2

4.2 Base Address

The Advme1314 takes up a 64-byte (40H) consecutive area in the VME bus A16 short address space, and the

starting address of the required area is referred to as a base address . The base address is assigned with the DSWs

1 and 2 on this board.

Among the addresses, A15 and A14 are fixed to 1, A13-A10 correspond to DSW1 and A9-A6 correspond to

DSW2 respectively.

However, it is necessary not to overlap the base address set here with the base address set for other board located

in the same rack.

The base address will be “FF00H” if the DSW1 is set to “F” and DSW2 is set to “C”.

These switches are factory-configured to “0”, which allows the base address to be C000H.

4.3 Output Connector

The Advme1314 is equipped with an output connector mounted with 40-pin MIL headers (2 pcs.).

The external cable is designed to adopt two types of connectors, insulation displacement connector (for a 1.27mm

pitch flat cable) and barbed crimp connector.

A connector layout is indicated in Figure 4.3.

[Figure 4.3] Connector Layout

A15 A14 A13 A12 A11 A10 A9 A8 A7 A6

1 DSW1 DSW2

CN1

CN2

An insulation displacement connector is included as an accessory for the external cable.

Table 4.3 shows a one-to-one correspondence between the connector pin number and signal.

Used connector ........................ 3M: J3432-P302VE (×2)

External cable connector .......... 3M: 7940-B500SC

Strain relief ............................... 3448-7940

[Table 4.3] Pin-to-Signal Relationship

CN1

Pin Number Signal Name Pin Number Signal Name

1 DOUT0 2 DOUT1

3 DOUT2 4 DOUT3

5 DOUT4 6 DOUT5

7 DOUT6 8 DOUT7

9 DOCOM0 10 DOCOM0

11 DOUT8 12 DOUT9

13 DOUT10 14 DOUT11

15 DOUT12 16 DOUT13

17 DOUT14 18 DOUT15

19 DOCOM1 20 DOCOM1

21 DOUT16 22 DOUT17

23 DOUT18 24 DOUT19

25 DOUT20 26 DOUT21

27 DOUT22 28 DOUT23

29 DOCOM2 30 DOCOM2

31 DOUT24 32 DOUT25

33 DOUT26 34 DOUT27

35 DOUT28 36 DOUT29

37 DOUT30 38 DOUT31

39 DOCOM3 40 DOCOM3

41 DOUT32 42 DOUT33

43 DOUT34 44 DOUT35

45 DOUT36 46 DOUT37

47 DOUT38 48 DOUT39

49 DOCOM4 50 DOCOM4

51 DOUT40 52 DOUT41

53 DOUT42 54 DOUT43

55 DOUT44 56 DOUT45

57 DOUT46 58 DOUT47

59 DOCOM5 60 DOCOM5

61 DOUT48 62 DOUT49

63 DOUT50 64 DOUT51

65 DOUT52 66 DOUT53

67 DOUT54 68 DOUT55

69 DOCOM6 70 DOCOM6

71 DOUT56 72 DOUT57

73 DOUT58 74 DOUT59

75 DOUT60 76 DOUT61

77 DOUT62 78 DOUT63

79 DOCOM7 80 DOCOM7

CN2

Pin Number Signal Name Pin Number Signal Name

1 DOUT64 2 DOUT65

3 DOUT66 4 DOUT67

5 DOUT68 6 DOUT69

7 DOUT70 8 DOUT71

9 DOCOM8 10 DOCOM8

11 DOUT72 12 DOUT73

13 DOUT74 14 DOUT75

15 DOUT76 16 DOUT77

17 DOUT78 18 DOUT79

19 DOCOM9 20 DOCOM9

21 DOUT80 22 DOUT81

23 DOUT82 24 DOUT83

25 DOUT84 26 DOUT85

27 DOUT86 28 DOUT87

29 DOCOM10 30 DOCOM10

31 DOUT88 32 DOUT89

33 DOUT90 34 DOUT91

35 DOUT92 36 DOUT93

37 DOUT94 38 DOUT95

39 DOCOM11 40 DOCOM11

41 DOUT96 42 DOUT97

43 DOUT98 44 DOUT99

45 DOUT100 46 DOUT101

47 DOUT102 48 DOUT103

49 DOCOM12 50 DOCOM12

51 DOUT104 52 DOUT105

53 DOUT106 54 DOUT107

55 DOUT108 56 DOUT109

57 DOUT110 58 DOUT111

59 DOCOM13 60 DOCOM13

61 DOUT112 62 DOUT113

63 DOUT114 64 DOUT115

65 DOUT116 66 DOUT117

67 DOUT118 68 DOUT119

69 DOCOM14 70 DOCOM14

71 DOUT120 72 DOUT121

73 DOUT122 74 DOUT123

75 DOUT124 76 DOUT125

77 DOUT126 78 DOUT127

79 DOCOM15 80 DOCOM15

4.4 Others

The Advme1314 requires individual VME bus signal connection of BG*IN and BG*OUT on account of no

function of bus arbitration. (Asterisk (*) assigned with 0 to 3)

Because an interrupt is not used, the Advme1314 is connected to IACKIN and IACKOUT.

So, the signals are communicated to the next slot without short-circuiting the IACK daisy chain on the backplane

(VME rack).

4.5 Output Signal Connection

4.5.1 Output Circuit

The configuration of the output circuit is shown in Figure 4.5.1.

The Advme1314 is capable of 128-point output circuit through 16 divided output banks with an independent

common allocated every 8 points.

[Figure 4.5.1] Output Circuit

DOCOM0

DOUT0

DOUT1

4.5.2 Example of Connection

The common terminal is available connected to the minus (-) side of the power supply.

Electrical isolation is also provided between the output banks, which allows signals requiring power supplies

that correspond to the output banks to be control.

Loads such as lamps, LEDs and relays can be activated directly.

<Note>

Be sure to protect the output circuit from inrush current and counter electromotive force in case of driving

a ramp load or inductive load.

[Figure 4.5.2] Example of Connection

DC12 to 24V

LED

Lamp

Diode

CN1 or CN2

DOUT0

DOUT1

DOUT2

DOUT7

DOUT8

DOUT9

DOUT15

DOCOM1

DOCOM0

4.6 Before Power-On

Mixed input and output and intricate layout of cables (connectors) are apt to be present in a system containing a

number of signal lines. With configuration and wiring installation completed, ensure that valid configuration and

correct wiring are performed before power-on.

z Is the line connected correctly?

z Is a unique base address of an I/O port assigned in a large system?

If the unique base address is not specified, the system may give an abnormal readout despite deceptively

proper operation.

z Is power supply voltage in the proper range?

The system may fail to perform proper operation in reaction to tripping of the voltage monitoring circuit if

power supply voltage supplied to the VME bus is in the edge of the recommended operating voltage range.

z Is enough power capacity secured?

The inadequate current capacity may cause power supply voltage to fluctuate that may result in unstable

operation.

5. Register

5.1 Register / Table

The register in the Advme1314 permits word access or byte access.

The following table shows the registers of this board .

[Base] in the tables denotes a base address this board is assigned to.

Access by word

The written values can be acquired by reading DOUT.

(Readback function)

Address Read Write

Base+00H Board ID -

Base+02H

Unused Unused :

Base+0EH

Base+10H DOUT[ 0- 15] DOUT[ 0- 15]

Base+12H DOUT[ 16- 31] DOUT[ 16- 31]

Base+14H DOUT[ 32- 47] DOUT[ 32- 47]

Base+16H DOUT[ 48- 63] DOUT[ 48- 63]

Base+18H DOUT[ 64- 79] DOUT[ 64- 79]

Base+1AH DOUT[ 80- 95] DOUT[ 80- 95]

Base+1CH DOUT[ 96-111] DOUT[ 96-111]

Base+1EH DOUT[112-127] DOUT[112-127]

Base+20H

Unused

Board Reset

Base+21H

Unused :

Base+3EH

Access by byte

The written values can be acquired by reading DOUT.

(Readback function)

5.2 Board ID Register

This register permits board identification with respect to its readout numbers. Advme Series I/O boards except the

CPU boards are allocated with board IDs varying according to board types.

Since the board ID consists of 8 bits, the D15-D8 data are invalidated at word access.

The board ID for the Advme1314 is 38H.

Address Read Write

Base+00H Unused Unused

Base+01H Board ID -

Base+02H

Unused Unused :

Base+0FH

Base+10H DOUT[ 8- 15] DOUT[ 8- 15]

Base+11H DOUT[ 0- 7] DOUT[ 0- 7]

Base+12H DOUT[ 24- 31] DOUT[ 24- 31]

Base+13H DOUT[ 16- 23] DOUT[ 16- 23]

Base+14H DOUT[ 40- 47] DOUT[ 40- 47]

Base+15H DOUT[ 32- 39] DOUT[ 32- 39]

Base+16H DOUT[ 56- 63] DOUT[ 56- 63]

Base+17H DOUT[ 48- 55] DOUT[ 48- 55]

Base+18H DOUT[ 72- 79] DOUT[ 72- 79]

Base+19H DOUT[ 64- 71] DOUT[ 64- 71]

Base+1AH DOUT[ 88- 95] DOUT[ 88- 95]

Base+1BH DOUT[ 80- 87] DOUT[ 80- 87]

Base+1CH DOUT[104-111] DOUT[104-111]

Base+1DH DOUT[ 96-103] DOUT[ 96-103]

Base+1EH DOUT[120-127] DOUT[120-127]

Base+1FH DOUT[112-119] DOUT[112-119]

Base+20H

Unused

Base+21H Board Reset

Base+22H

Unused :

Base+3FH

D7 D6 D5 D4 D3 D2 D1 D0

00111000

5.3 Data Register

This register of digital output data.

Split up into a register of 8 or 16 by a way of access.

5.3.1 DOUT [0 - 15]

These registers are used to write data that are to be output to DOUT0-15.

The output is turned on by writing “1” to these registers and turned off by writing “0” to them.

Also, the current settings can be acquired by reading the same registers. (Readback function)

As with the written values, a read value “0” means that the output is turned off and “1” means that the output

is turned on.

D15 D14 D13 D12 D11 D10 D9 D8

D7 D6 D5 D4 D3 D2 D1 D0

DOUT8

DOUT9

DOUT10

DOUT11

DOUT12

DOUT13

DOUT14

DOUT15

DOUT0

DOUT1

DOUT2

DOUT3

DOUT4

DOUT5

DOUT6

DOUT7

D15 D14 D13 D12 D11 D10 D9 D8

5.3.2 DOUT [16 - 31]

These registers are used to write data that are to be output to DOUT16-31.

The output is turned on by writing “1” to these registers and turned off by writing “0” to them.

Also, the current settings can be acquired by reading the same registers. (Readback function)

As with the written values, a read value “0” means that the output is turned off and “1” means that the output

is turned on.

5.3.3 DOUT [32 - 47]

These registers are used to write data that are to be output to DOUT32-47.

The output is turned on by writing “1” to these registers and turned off by writing “0” to them.

Also, the current settings can be acquired by reading the same registers. (Readback function)

As with the written values, a read value “0” means that the output is turned off and “1” means that the output

is turned on.

D7 D6 D5 D4 D3 D2 D1 D0

DOUT24

DOUT25

DOUT26

DOUT27

DOUT28

DOUT29

DOUT30

DOUT31

DOUT16

DOUT17

DOUT18

DOUT19

DOUT20

DOUT21

DOUT22

DOUT23

DOUT40

DOUT41

DOUT42

DOUT43

DOUT44

DOUT45

DOUT46

DOUT47

D15 D14 D13 D12 D11 D10 D9 D8

5.3.4 DOUT [48 - 63]

These registers are used to write data that are to be output to DOUT48-63.

The output is turned on by writing “1” to these registers and turned off by writing “0” to them.

Also, the current settings can be acquired by reading the same registers. (Readback function)

As with the written values, a read value “0” means that the output is turned off and “1” means that the output

is turned on.

D7 D6 D5 D4 D3 D2 D1 D0

DOUT56

DOUT57

DOUT58

DOUT59

DOUT60

DOUT61

DOUT62

DOUT63

DOUT48

DOUT49

DOUT50

DOUT51

DOUT52

DOUT53

DOUT54

DOUT55

DOUT32

DOUT33

DOUT34

DOUT35

DOUT36

DOUT37

DOUT38

DOUT39

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Eurotech Advme1314 Owner's manual

Eurotech Advme1314 Owner's manual

Eurotech Advme1314 Owner's manual

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