manualshive.com logo in svg

Profibus IQ plus 800, Installation And Programming Manual

Share
Download
Profibus IQ plus 800 Installation And Programming Manual Download Page 9

 

Installation

 

5

 

Profibus Address

 

Switches SW1-1 through SW1-8 are used to set the
address of the ProÞbus Indicator Interface. Use
Table 2-4 to select the correct switch settings for the
network address. Note that setting a switch OFF acts
as a logical Ò0Ó and that SW1-1 represents the least
signiÞcant bit (LSB) of the network address.

The conÞgured address equals the sum of the values
of the switches set on. For example, to set a network
address of 19, SW1 switches would be set as shown in
Table 2-5:

For hexadecimal addressing, SW1 functions as shown in Table 2-6. Repeating the example from Table 2-4,
decimal 19 is hexadecimal 13: Switch 1-5 (1 in byte 1) and switches 1-2 and 1-1 (2+1 = 3 in byte 0) would be set
on for an address of hex 13.

 

Indicator Type

 

Switches SW2-1 and SW2-2 set the type of indicator
attached to the ProÞbus Indicator Interface. 

 

Indicator Data Rate

 

Switches SW2-3 and SW2-4 set the data rate used for
communications between the indicator and the
ProÞbus Indicator Interface. Set to 9600 bps for the IQ
plus 310A.

 

Stop Bits

 

Switch SW2-5 sets the number of stop bits used to
communicate with the indicator. Set SW2-5 OFF for
one stop bit, ON for two stop bits.

 

Parity

 

Switches SW2-6 and SW2-7 set the type of parity
used to communicate with the indicator.

 

Switch

Decimal Value if Switch=ON

1-1

1

1-2

2

1-3

4

1-4

8

1-5

16

1-6

32

1-7

64

1-8

128

 

Table 2-4. SW1 Switch Values for Network Addressing

 

Switch

ON Value

Switch State

Value

1-1

1

ON

1

1-2

2

ON

2

1-3

4

OFF

0

1-4

8

OFF

0

1-5

16

ON

16

1-6

32

OFF

0

1-7

64

OFF

0

1-8

128

OFF

0

 

Sum of ON switch values:

 

19

 

Table 2-5. SW1 Example for Network Address 19

 

Switch

1-8

1-7

1-6

1-5

1-4

1-3

1-2

1-1

Byte 1

Byte 0

8

4

2

1

8

4

2

1

2

 

7

 

2

 

6

 

2

 

5

 

2

 

4

 

2

 

3

 

2

 

2

 

2

 

1

 

2

 

0

 

Table 2-6. Switch Values for Hexadecimal Addressing

 

Data Rate (bps)

SW2-1

SW2-2

 

IQ plus 310A

OFF

OFF

IQ plus 800/810

ON

OFF

 

Table 2-7. Indicator Type Switch Settings

 

Data Rate (bps)

SW2-3

SW2-4

 

9600

OFF

OFF

19200

OFF

ON

 

Table 2-8. Network Data Rate Switch Settings

 

Parity

SW2-6

SW2-7

 

NONE

OFF

OFF

EVEN

OFF

ON

ODD

ON

OFF

 

Table 2-9. Parity Switch Settings

DISCONTINUED

Summary of Contents for IQ plus 800

Page 1: ...50955 Profibus DP Indicator Inter f a c e Indicator Interface for IQ plus 800 810 and IQ plus 310A Indicators Version 1 0 Installation and Programming Manual R D I S C O N T I N U E D ...

Page 2: ...D I S C O N T I N U E D ...

Page 3: ...ternal LEDs 6 2 3 2 Onboard LEDs 6 2 4 Indicator Setup 7 2 4 1 IQ plus 310A Configuration 7 2 4 2 IQ plus 800 810 Configuration 7 3 0 Profibus Commands 8 3 1 Integer 20 bit Commands 8 3 1 1 Integer Command Formats 8 3 1 2 Integer Commands 9 3 2 Floating Point 32 bit Commands 11 3 2 1 Floating Point Commands 12 3 3 Status Data 12 3 4 Command Examples 13 3 4 1 Retrieve Net Weight Data 20 bit 13 3 4 ...

Page 4: ...ii Profibus DP Indicator Interface Installation and Programming Manual D I S C O N T I N U E D ...

Page 5: ... ProÞbus DP network A diskette containing the GSD Þle used to conÞgure the master device is supplied with the ProÞbus Indicator Interface see Section 4 2 on page 16 The following Þgure shows an example of the ProÞbus Indicator Interface used to connect an IQ plus 800 810 indicator to the master device on a ProÞbus DP network The ProÞbus Indicator Interface supports two sets of commands 20 bit inte...

Page 6: ... to the PLC and indicator Figure 2 2 ProÞbus Indicator Interface Logic Board Layout 1 2 3 4 5 6 7 8 9 11 13 10 12 14 15 16 U13 C14 C15 U11 1 R3 R4 R5 R6 R7 R68 R69 R70 U3 U12 R71 R73 R72 R74 J2 R2 U2 R19 R27 U14 R76 R77 R78 C19 C3 C5 R29 U4 R28 C4 1 ISOPWR1 U15 C17 R75 C16 R79 C18 C20 R21 R20 R1 R8 U1 R26 C1 C2 U5 CLK1 R25 R24 R22 R23 R31 C6 R38 R39 U6 1 J1 R37 R36 R35 R33 R30 R42 R49 R43 R44 R45 ...

Page 7: ...ions to the ProÞbus network are made at connector J4 on the ProÞbus board see Figure 2 2 on page 2 for board location of J4 Table 2 3 shows the connections from J4 connector on the ProÞbus board to the DB 9 ProÞbus connector 2 1 4 Bus Termination Jumpers If the ProÞbus Indicator Interface is the last device on the network bus install jumpers JMP3 and JMP4 on the ProÞbus board see Figure 2 2 on pag...

Page 8: ... connector J5 see Table 2 1 5 Replace enclosure cover and tighten screws using torquing pattern shown in Figure 2 1 6 Reconnect power to ProÞbus Indicator Interface 2 2 DIP Switch Configuration Two banks of DIP switches are used to conÞgure the ProÞbus Indicator Interface for communication between the indicator and the network Figure 2 5 shows the switch assignments for SW1ÐSW3 Figure 2 5 DIP Swit...

Page 9: ...en the indicator and the ProÞbus Indicator Interface Set to 9600 bps for the IQ plus 310A Stop Bits Switch SW2 5 sets the number of stop bits used to communicate with the indicator Set SW2 5 OFF for one stop bit ON for two stop bits Parity Switches SW2 6 and SW2 7 set the type of parity used to communicate with the indicator Switch Decimal Value if Switch ON 1 1 1 1 2 2 1 3 4 1 4 8 1 5 16 1 6 32 1...

Page 10: ...em error On when communications between indicator and Profibus Indicator Interface is lost Check that baud rates configured at Profibus Indicator Interface and at the master are the same Check wiring at J5 connector RxD Green Blinks when data is received from the indicator May appear to be on steady when indicator is streaming data TxD Green Blinks when data is sent to the indicator Table 2 10 Pro...

Page 11: ... Interface See the IQ plus 800 810 Installation Manual for detailed information about conÞguring the indicator IQ plus 310A Configuration Settings Notes EDP MODE DEMAND Required BAUD 9600 Must match DIP switch selection on Profibus Indicator Interface BITS 8 NONE Required TERMIN CR EOL DLY 0 MS FORMAT REMOTE CASE UPPER RESPOND STATUS PRINTER MODE TICKET Specify TICKET mode to improve indicator per...

Page 12: ...d commands see Section 3 3 on page 12 for status bit assignments NOTE Integer commands return no decimal point information to the master For example a value of 750 1 displayed on the indicator is returned to the master as 7501 Bit Byte 1 Byte 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Word 0 R R R R R R R R c c c c c c c c Word 1 R R R R R R R R R R R R R R R R Word 2 R R R R R R R R R R R R v19 v18 ...

Page 13: ...lect Kilograms Ö 0E 14 Print Request Ö Ö 10 16 Clear Accumulator Channel 0 Ö 11 17 Clear Accumulator Channel 1 Ö 12 18 Clear Accumulator Channel 2 Ö 13 19 Clear Accumulator Channel 3 Ö 14 20 Clear Accumulator Channel 4 Ö 15 21 Clear Tare Ö Ö 16 22 Return Gross Channel 0 Ö 17 23 Return Gross Channel 1 Ö Ö 18 24 Return Gross Channel 2 Ö 19 25 Return Gross Channel 3 Ö 1A 26 Return Gross Channel 4 Ö 1...

Page 14: ...nnel 3 Ö 37 55 Return Rate of Change Channel 4 Ö 38 56 Return Peak Channel 0 Ö 39 57 Return Peak Channel 1 Ö 3A 58 Return Peak Channel 2 Ö 3B 59 Return Peak Channel 3 Ö 3C 60 Return Peak Channel 4 Ö 3D 61 Push Weight to Accumulator Channel 0 Ö 3E 62 Push Weight to Accumulator Channel 1 Ö 3F 63 Push Weight to Accumulator Channel 2 Ö 40 64 Push Weight to Accumulator Channel 3 Ö 41 65 Push Weight to ...

Page 15: ...yte 1 Byte 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Word 0 R R R R R R R c c c c c c c c c Word 1 R R R R R R R R n07 n06 n05 n04 n03 n02 n01 n00 Word 2 v31 v30 v29 v28 v27 v26 v25 v24 v03 v22 v21 v20 v19 v18 v17 v16 Word 3 v15 v14 v13 v12 v11 v10 v09 v08 v07 v06 v05 v04 v03 v02 v01 v00 Table 3 4 ProÞbus 32 bit Floating Point Output Format Bit Byte 1 Byte 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Wor...

Page 16: ... Setpoint Preact Ö 10A 266 Read Setpoint Value Ö 10B 267 Read Setpoint Hysteresis Ö 10C 268 Read Setpoint Bandwidth Ö 10D 269 Read Setpoint Preact Ö 10E 270 Set Batching State Ö Table 3 6 IQ plus 800 810 and IQ plus 310A Floating Point Commands Bit Status Data Value 0 Value 1 s00 No Error Error s01 Tare not entered Tare entered s02 Not zero Center of zero s03 Weight OK Weight invalid s04 Standstil...

Page 17: ...11 shows a binary representation of the 32 bit output data used to retrieve net weight from channel 2 of an IQ plus 800 810using command 261 The output format includes the command number in byte 0 of word 0 0001 0001 1100 hex 105 decimal 261 the channel number 0100 decimal 2 in the lower byte of word 1 Bit Byte 1 Byte 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Word 0 R R R R R R R R 0 0 0 1 1 1 0 0 W...

Page 18: ...le 3 14 shows the output data used to read the value of setpoint 1 Table 3 15 shows the data returned by the previous command Again the value data returned in words 2 and 3 must be copied into a ßoating point storage location to be read Bit Byte 1 Byte 0 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Word 0 0 0 0 0 0 0 0 1 0 0 0 0 0 1 0 1 Word 1 0 0 0 0 0 0 0 0 1 1 0 0 0 0 1 0 Word 2 0 1 0 0 0 0 1 1 1 1 1 ...

Page 19: ...ctly to communicate with the slave device 8 On the ProÞbus board ensure that the 3 3V LED is lit If it is not check connector J6 for a loose or incorrect connection see Figure 2 2 on page 2 If the LED is still not lit replace the ProÞbus Indicator Interface power supply 9 Locate EPROM U7 found in the middle of the ProÞbus board see Figure 2 2 on page 2 Ensure that the chip is seated by pressing do...

Page 20: ...sdr_500 100 MaxTsdr_45 45 120 MaxTsdr_1 5M 150 MaxTsdr_3M 250 MaxTsdr_6M 450 MaxTsdr_12M 800 Redundancy 0 Redundancy not supported Repeater_Ctrl_Sig 2 Repeater control signal TTL RTS 2 not connected 0 24V_Pins 0 24 V pins not connected Implementation_Type SPC3 Slave Specification Freeze_Mode_supp 0 Freeze mode is not supported Sync_Mode_Supp 0 Sync mode is not supported Auto_Baud_supp 1 Auto baud ...

Page 21: ...15 VAC operation Two fast acting 125 mA 250V subminiature fuses for 230 VAC operation Communications Specifications Profibus Network Communications Twinaxial cable attachment to Profibus network Serial Communications Interface RS 232C 20mA current loop optional Data rate 9600 or 19 2 Kbps ASCII encoding 1 start bit 8 data bits 1 stop bit Environmental Specifications Temperature 10 to 40 C 14 to 10...

Page 22: ...ists and was not caused by accident misuse neglect alteration improper installation improper repair or improper testing RLWS shall be the sole judge of all alleged non conformities Such equipment has not been modiÞed altered or changed by any person other than RLWS or its duly authorized repair agents RLWS will have a reasonable time to repair or replace the defective equipment Buyer is responsibl...

Reviews:

No comments

Brands by name

Popular brands

Load more brands