zab upc090ae
TRANSCRIPT
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Data sheet
CONTROL SYSTEM FOR CONVERTER PSR-SYSTEM
Fieldbus Coupler 32 I/O
UP C090 AE
FEATURES The "Fieldbus Coupler 32 I/O" belongs to the PSR2 family of devices and is in turn, a
member of the remote peripherals with a connection to the Fieldbus. 32 digital inputs for connection to a passive opto-interface. 32 digital, short-circuit proof outputs suitable for direct connection of passive relay interface
with 16 channels. The device is intended for both wall-mounting as well as insertion in standard cubicles (to
snap on a top-hat rail). The connection on the bus side is carried out using a BNC-coaxial connector whereas on the
customer side is by means of a flat cable; with 16 channels per cable.
SHORT DESCRIPTION Purpose
The "Fieldbus Coupler 32 I/O" is a node on the ARCnet-Fieldbus with 32 digital inputs and outputs. It transmits in serial, the 32 input/output signals to and from the processing controller via Fieldbus (coaxial cable). In this way, a remote acquisition and transmission of control signals is achieved with a minimum amount of wiring effort.
Function
The process input signals on the customer side are cyclically read by a micro-controller (C), pre-processed and stored in the RAM. On the other side, the control commands of the processing controllers are received, saved and output in parallel via Fieldbus.
The data transfer on the bus is only performed by the ARCnet-controller and in asynchronous to C. The bus control as well as error handling are integrated in the system protocol. A driver is installed on the bus side which is able to drive a medium size remote system in a bus or star topology.
Document Format Page No. of pages
Language a c Issued: 94-07-28 Rubi b Rev. d Check 1: 94-07-28 Spielh. Rev.
Der. from / Repla.: Released: 94-07-28 Roth A.
Department 1 Department 2 e Check 2: TA A 4 E 1 18
Replaced by:
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TABLE OF CONTENTS
FEATURES...................................................................................................................................... 1 SHORT DESCRIPTION ................................................................................................................... 1
1. DEVICE BLOCK DIAGRAM.......................................................................................... 4 2. FUNCTIONAL DESCRIPTION...................................................................................... 5 2.1 Schematic Diagram................................................................................................... 5 2.2 Power Supply ............................................................................................................ 6 2.3 ARCnet- and Micro-controller.................................................................................... 6 2.4 Line Driver................................................................................................................. 7 2.5 Interface to Hardware................................................................................................ 7 2.6 Monitoring ................................................................................................................. 7
3 CONFIGURATION......................................................................................................... 8 3.1 Required Hardware Components.............................................................................. 8 3.2 Address Selection ..................................................................................................... 8 3.3 Memory Partitioning .................................................................................................. 8 3.4 Input/output Memory Assignment ............................................................................. 9 3.5 Software Interface ................................................................................................... 10
4. COMMISSIONING AND FUNCTION CONTROL........................................................ 11 4.1 Commissioning Hints .............................................................................................. 11 4.2 Function Control...................................................................................................... 11
5. TECHNICAL DATA ..................................................................................................... 12 5.1 Power Supply .......................................................................................................... 12 5.2 Input Characteristics ............................................................................................... 12 5.2.1 Digital Signal Inputs (connectors X1,X2) ............................................................ 12 5.3 Output Characteristics............................................................................................. 12 5.3.1 Digital Signal Outputs (connectors X3,X4) ......................................................... 12 5.3.2 Total Load........................................................................................................... 13 5.4 Interface .................................................................................................................. 13 5.4.1 Input Characteristics........................................................................................... 13 5.4.2 Output Characteristics ........................................................................................ 14 5.4.3 Transfer Characteristics ..................................................................................... 14 5.5 Setting Values ......................................................................................................... 15 5.6 Transfer Characteristics .......................................................................................... 15 5.7 Monitorings.............................................................................................................. 15 5.7.1 Supply Voltage Monitoring.................................................................................. 15 5.7.2 Input Protection .................................................................................................. 15 5.7.3 Watchdog (program sequence controller) .......................................................... 15 5.8 Environmental Characteristics ................................................................................ 15 5.8.1 Permissible Ambient Temperature ..................................................................... 15 5.8.2 Climate Stability.................................................................................................. 15 5.8.3 Mechanical Stability............................................................................................ 16 5.8.4 EMC (Electromagnetic Compatibility)................................................................. 16 5.8.5 Altitude of Installation ......................................................................................... 16 5.8.6 Protection Means................................................................................................ 16 5.8.7 Test Voltages...................................................................................................... 16 5.9 Reliability................................................................................................................. 16
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6. CONSTRUCTION DATA............................................................................................. 17 6.1 Dimensions ............................................................................................................. 17 6.2 Weight ..................................................................................................................... 17 6.3 Setting-, Display- and Control Elements ................................................................. 17 6.4 Connectors.............................................................................................................. 17 6.4.1 Fieldbus.............................................................................................................. 17 6.4.2 Binary I/O............................................................................................................ 17 6.4.3 Power Supply +24 Volt ....................................................................................... 18
7. ORDER INFORMATION.............................................................................................. 18
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1. DEVICE BLOCK DIAGRAM
1..16
17..26
1..16
17..26
HEX:
RUNRELEASE
OPEN=1
NODE-ID
F101
2,5AF
1....16
18,20,22,24,26
17,19,21,23,25
1....16
18,20,22,24,26
17,19,21,23,25
16 IN
16 IN
+5V
-5V
16 OUT
16 OUT
UP C090 AEX61
X1
X2
X3
X4
S201
MSB LSB
X511
2
3
4
5
ARCnet
ARCnet
ARCnet
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2. FUNCTIONAL DESCRIPTION
2.1 Schematic Diagram
Run
ALE PORT 0PORT 2AD0...7A8...15
16 MHz
RUN80C31
ADDRESSLATCH
COM 20010
PU
LSE
1P
ULS
E 2
RX
IN
D0.
..7A
0...7
20 MHz
DriverHYC 9088
EPROM
RAMCHIP-SELECT
FIE
LDB
US
A D
D R
E S
S -
B U
S
D A
T A
- B
U S
Latch
Latch5 Volt
24 Volt5 Volt
24 Volt
Latch
Latch
5 Volt
24 Volt
Latch
Latch
123456789
10111213141516
X2: 17181920212223242526
123456789
10111213141516
X1: 17181920212223242526
Latch
Latch
24 Volt
5 Volt
Z0
+24 VoltImax 200 mA+
_
Z0+24 Volt
Imax 200 mA+
_
123456789
101112131415
18192021222324
2526
X3: 17
123456789
101112131415
181920212223242526
X4: 17
16
OPEN
OPEN = log. 1
NODE-ID
Latch
16
24 V
5 V
+24V
0V
+24V
0V
0 1
+24V
1 01 0
Release
Reset
Reset
Int1
Disable
Release
2,5AF
RImax
ImaxR
KS1
KS2
KS1KS2
PO
RT
1
Free 1FreeReset
WD
Enable
Enable
S201
X511
2
3
4
5
X61
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2.2 Power Supply
An external supply voltage of +24 Volt DC is required. The non-electrically-isolated voltages of +5 Volt and -5 Volt are created internally. As long as the power supply is not in order, a watchdog of 5 supply voltage sets the "Reset" signal high. A green LED indicating "power supply ok" is turned off in case of a faulty power supply. In order a fault in the device not to block the 24 Volt input voltage, a replaceable fast fuse of 2,5A is inserted at the input.
2.3 ARCnet- and Micro-controller
The combination of the micro-controller 80C31 and ARCnet-controller COM 20020 controls the whole function of the network nodes. The micro-controller accesses the software saved in EPROM via its ports 0 and 2. The software on one hand, controls the Interface to hardware, on the other hand, the data transfer to the bus-controller. This in turn controls the complete traffic on the Fieldbus. For the bus-protocol, it should be referred to the software specification which is not discussed in this paper.
Memory
The 8-bit micro-controller 80C31 provides a maximum memory range of 64 kBytes of program code as well as 64 kBytes RAM. The RAM memory is in addition to the controller memory, used for the I/O interface and node addresses. The corresponding memory partitioning is shown in the following diagram:
EPROM
FFFFH
I/O Interface 3. Byte
I/O Interface 2. Byte
I/O Interface 1. Byte
RAM
3FFFH
2000H
0000H0000H
RAM 8kx8
RAM 32kx8
FFFFH
F000H
E000H
D000H
C000H
B000H
A000H
9000H
8000H
I/O Interface 4. Byte
reserved for internal use
node addresses
occupied by COM 20020
not used
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Node Addresses
Each node in the network must have a unique address. The address is selected by means of a DIP-switch S201 in range 1..63 and can be chosen on-will as long as it is unique within the network. It should be noted that the nodes are processed in the order of their addresses.
2.4 Line Driver
The line driver Hybrid HYC 9088 converts the digital signals of the serial output of the ARCnet-controller into electrically-isolated and DC-free "dipulses" which are then transferred to the bus. Besides, it also receives dipulse signals sent by other nodes and converts them into mC-compatible digital signals. It is also able to drive a coaxial cable (RG 62). The link from one device to another is carried out using a BNC-T through which the device can be mechanically separated from the bus without disturbing the rest of it. On both ends, the bus cable must be terminated by a 93 Ohm surge impedance. The bus driver is electrically compatible with the standard ARCnet systems. The bus partitioning which avoids the data collision is implemented in the software protocol.
2.5 Interface to Hardware
Inputs
The status of the 32 input channels are read by the two connectors X1 and X2, converted into 5 Volt and transferred onto the internal bus via four 8-bit transparent latches. These are always read 8-bit in parallel. During reading, the input latches are blocked in order to keep the data consistency within one byte. On these connectors there are at the same time, +24 Volt and 0 Volt outputs which are used to directly read either passive opto-interface or galvanically-isolated contacts.
Outputs
As outputs, there are also four 8-bit latches which are individually written by the data bus. After conversion to 24 Volt, they are transferred to 16 channels of the two output connectors X3 and X4. The output connection is suitable for direct control of a passive relay interface. Each output is individually monitored against short-circuit. If a fault occurs, the corresponding channel is disabled and this is read by the controller and reported on the bus as a fault alarm. After the fault clearance, the channel can be enabled again using the release key S101.
2.6 Monitoring
The following hardware supervisory circuits are included in the device. The power supply supervision or watchdog alarm is indicated by clearing the green LED.
Power Supply Monitoring
This supervises the failure of +5 Volt and -5 Volt power supply as well as undervoltage and at the same time, by power-up creates a power-up signal through which the bus driver and controller are set to stillstand (hold).
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Watchdog
The device contains a watchdog which supervises the correct program sequence and in case of a malfunction restarts the controller via an interrupt routine as a first step. If this doesn't clear the fault, it creates a "Reset" signal to block the bus driver so that the network detects the fault. This error is saved and can be only reset either by the power supply or the release key (S101).
Besides, there is a time-out (ARCnet-condition) which forces a bus initialization, if the node doesn't receive the token for longer than 840ms. The bus initialization takes ca. 2s. Furthermore, if a device is defected, the network detects it automatically, but the rest of the bus traffic is not disturbed. The same applies when the device is put back into operation in which it automatically returns into the logical ring.
Short-circuit Monitoring
This is described in chapter 2.5 "Interface to Hardware".
3 CONFIGURATION
3.1 Required Hardware Components supply voltage cable type accord. to HIER 466264 fieldbus cable type accord. to HIER 466587 BNC term. resistor and T-connector accord. to HIER 466608 protective earth cable type accord. to HIEE 405127 the case must be earthed using the protective earth cable
3.2 Address Selection
The address switch S201 is used to determine the node address of the device within the whole ARCnet bus network which must be unique. The allowed address range is 1 to 63.
node address for Fieldbus selected via 8-fold DIP-switch S201 "Node-ID" 1...255 permitted setting (software condition) 1...63 (address 0 not allowed) weight of the switch positions (OPEN = logical "1")
switch 8 7 6 5 4 3 2 1 weight 128 64 32 16 8 4 2 1
MSB LSB
3.3 Memory Partitioning
This is already explained in chapter 2.3.
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3.4 Input/output Memory Assignment
The 32 inputs (connectors X1 and X2) as well as the 32 outputs (connectors X3 and X4) each occupies 4 bytes of memory. The address assignment of the required data is carried out in FUPLA configuration as shown below:
Inputs (signals from the process to the controller)
The Size_IN defines the number of the bytes to be transferred. The offset can be assigned in FUPLA, otherwise, it is inactive meaning that the transfer always begins from byte 0.
0
1
2
3
Size
Byte-Offset
Bit 01234567
Size 4
Offset 0
Outputs (signals from the controller to the process)
Offset_OUT and Size_OUT define the destination addresses as well as the number of output bytes respectively.
0
1
2
3
Size
Byte-Offset
Bit 01234567
Size 4
Offset 3
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The assignment of the connector/pin to the data byte/bit is given in the following table:
Input/output connectors X1 ... X4
connector/pin byte offset bit connector/pin byte offset bit
X1/1, X3/1 0 0 X2/1, X4/1 2 0
X1/2, X3/2 0 1 X2/2, X4/2 2 1
X1/3, X3/3 0 2 X2/3, X4/3 2 2
X1/4, X3/4 0 3 X2/4, X4/4 2 3
X1/5, X3/5 0 4 X2/5, X4/5 2 4
X1/6, X3/6 0 5 X2/6, X4/6 2 5
X1/7, X3/7 0 6 X2/7, X4/7 2 6
X1/8, X3/8 0 7 X2/8, X4/8 2 7
X1/9, X3/9 1 0 X2/9, X4/9 3 0
X1/10, X3/10 1 1 X2/10, X4/10 3 1
X1/11, X3/11 1 2 X2/11, X4/11 3 2
X1/12, X3/12 1 3 X2/12, X4/12 3 3
X1/13, X3/13 1 4 X2/13, X4/13 3 4
X1/14, X3/14 1 5 X2/14, X4/14 3 5
X1/15, X3/15 1 6 X2/15, X4/15 3 6
X1/16, X3/16 1 7 X2/16, X4/16 3 7
Further information about the configuration is given in "Introduction to Fieldbus Operation".
3.5 Software Interface
1. Process data I/O
The access to the input/output process data trough FUPLA is described in chapter 3.4.
2. Monitoring
The error indication set by various monitorings can be accessed through FUPLA. For more information on this refer to "Introduction to Fieldbus Operation".
3. Services
The service concept refers to the PSR servicer function which is described in a separate document. The Identification & Diagnostic function is supported according to the following table:
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Address 00 Slave Ready 0001 hex by successful start of software 01 Param Ready 0001 hex by valid configuration 02 Identifikation HIEE xxxxxx software version 03 Identifikation HIEE xxxxxx software version 04 Functionality 0022 hex 05 Device Status 0011 hex by short-circuit on output 06 Debug Flags not used = 0000 hex
4. COMMISSIONING AND FUNCTION CONTROL
4.1 Commissioning Hints
- select the node address; this should correspond with the configuration in FUPLA
- insert the interface
- connect the bus cable; if the device is the last one on the bus, a termination resistor must be connected to the free end of the BNC-T.
- switch on the 24 Volt power supply
4.2 Function Control
- after switching on the power supply the green LED must come on after a short delay (ca. 6s).
- if the LED is not on, it could be that it is not yet initialized by the master and/or has not received valid data. To find out whether the device is serviced correctly by the master, the software must be checked.
- if the LED is not on, although the master runs correctly, the fuse must be checked. If this is ok then the device is defective and must be exchanged.
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5. TECHNICAL DATA
5.1 Power Supply
rated voltage Us +24 Volt 10 % current consumption (unloaded outputs) typical ca.125 mA maximum 200 mA
permissible voltage dip (cut off) by 0,5A load 10 ms
impulse voltage test of power supply with electronic against case 1,2/50 s 630 V pk
The given values are valid for the factory test. By repeat tests, only 80% of this value must be tested.
internally created voltages 5 Volt / 500 mA typical power loss 3 W
5.2 Input Characteristics
5.2.1 Digital Signal Inputs (connectors X1,X2)
24 Volt signals "1" signal 11,3...30 V "0" signal < 3 V input resistor 10 kOhm
output test voltage 24 Volt (short-circuit proof) Us - 2,5 V max. load per connector (X1,X2) 200 mA
max. cable length per connector 5 m
5.3 Output Characteristics
5.3.1 Digital Signal Outputs (connectors X3,X4)
24 Volt signals "1" signal Us - 2,2 V "0" signal open
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max. continuous output current per channel
Imax. / Output (mA)
450
400
350
300
250
200
150
100
50
00 1 2 3 4 5 6 7 8
Number of active outputs
25C
50C70C
Iout max
By thermal overload as well as short-circuit all 16 channels of a connector are switched off.
max. cable length per connector 2 m
5.3.2 Total Load
maximum permissible load of the 24 Volt on connectors X1 to X4 2,2 A
5.4 Interface
serial Fieldbus accord. to ARCNET LAN STANDARD ANSI/ATA 878.1
5.4.1 Input Characteristics
sinus pulse > 4,4 Vpp frequency 5 MHz
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5.4.2 Output Characteristics
sinus pulse > 15,4 Vpp
frequency 5 MHz
5.4.3 Transfer Characteristics
transfer rate 2,5 MBaud
maximum number of nodes on the network 255
maximum transfer distance 65...435 m
The maximum transfer distance on one hand depends on the number of connected nodes and on the other hand on the used cable. The given values apply to the coaxial cable RG 62/93 Ohm.
maximum number of nodes to be connected 19
minimum distance between 2 nodes 1 m derivation of distance from number of nodes D N m= - *( )22 478
22
derivation of number of nodes from distance N Dm
= -22 1478
*( )
22
18
16
14
12
10
8
6
4
20
2
19
50 150 200 300 400 435
NNodes
100 250 350 meter
Fig: Dependency of number of nodes upon the bus length.
The bus cable must be terminated on both ends with a 93 Ohm termination resistor.
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5.5 Setting Values
Refer to chapter 3. Configuration.
5.6 Transfer Characteristics
not applicable
5.7 Monitorings
5.7.1 Supply Voltage Monitoring
+5 Volt, threshold by +4,5...+4,6 V
-5 Volt, threshold by -4,5...-4,6 V
Power-on "Reset" signal by exceeding above thresholds each ca. 60 ms
5.7.2 Input Protection
input fuse 24V 2,5A fast
5.7.3 Watchdog (program sequence controller)
1.stage switch-in delay 70 ms leads to interrupt and device power-up (new start)
2.stage switch-in delay 150 ms leads to device power-down
In addition, there is a time-out (ARCnet condition) which enforces a bus re-initialization, if the node doesn't receive the token for longer than 840ms. The bus re-initialization takes 24...61ms depending on the network size.
5.8 Environmental Characteristics
5.8.1 Permissible Ambient Temperature
keeping the technical data 0...+70 C
operational range 0...+70 C
storage temperature -25...+85 C
5.8.2 Climate Stability
accord. to IEC-Publ.68-2-1 0 C
accord. to IEC-Publ.68-2-2 70 C
accord. to IEC-Publ.68-2-3 21 days
by relative humidity 93 +2/-3 %
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5.8.3 Mechanical Stability
mechanical stress (vibration)
accord. to IEC-Publ.68-2-6 10...150 Hz acceleration 2g in each axis
seismic requirements (earthquake)
accord. to IEEE-STD. 344 1...33 Hz acceleration 5g in each axis
5.8.4 EMC (Electromagnetic Compatibility)
accord. to IEC 801-3 class 3 10V/m, 27..1000MHz
power supply accord. to IEC 801-4 2 kV peak all other cables accord. to IEC 801-4 250V peak
5.8.5 Altitude of Installation
accord. to IEC 68-2-13 max. 2000 meters above sea.
5.8.6 Protection Means
protection means DIN 40050 IP 10
5.8.7 Test Voltages
refer to chapter 5.1
5.9 Reliability
failure rate 2000 FIT
(condition: GB, 40C)
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6. CONSTRUCTION DATA
6.1 Dimensions
dimensions (LxWxH) 381 x 128 x 55 [mm] mounting: top-hat rail mounting according to DIN EN 50 022
6.2 Weight
weight 0,94 kg
6.3 Setting-, Display- and Control Elements
node address DIP-switch S201 8-pole (open=logical "1"; closed=logical "0") operation status display via green LED "ON" ready release key, short-circuit annunciation reset reset
6.4 Connectors
6.4.1 Fieldbus
X61 coax-coupling
6.4.2 Binary I/O
flat cable connectors X1 ...X4 26-pole plug in connector of 26-pole, construction type A DIN 41651
connector X1, X2 connector X3, X4
inputs outputs
1 E1 E2 A1 A2
3 E3 E4 A3 A4
5 E5 E6 A5 A6
7 E7 E8 A7 A8
9 E9 E10 A9 A10
11 E11 E12 A11 A12
13 E13 E14 A13 A14
15 E15 E16 A15 A16
17 0 + 0 0
19 0 + 0 0
21 0 + 0 0
23 0 + 0 0
25 0 + 0 0
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6.4.3 Power Supply +24 Volt
cage clamp terminal 2,5 mm2
Only one wire should be connected per terminal.
X51
24V_1 1
supply volt. bus 1
0V 2
PE 3 protective earth
0V 4
supply volt. bus 2
24V_2 5
7. ORDER INFORMATION
order number UP C090-AE,V1 HIEE 300661 R1
1.DEVICE BLOCK DIAGRAM2.FUNCTIONAL DESCRIPTION2.1Schematic Diagram2.2Power Supply2.3ARCnet- and Micro-controller2.4Line Driver2.5Interface to Hardware2.6Monitoring
3 CONFIGURATION3.1Required Hardware Components3.2Address Selection3.3Memory Partitioning3.4Input/output Memory Assignment3.5Software Interface
4.COMMISSIONING AND FUNCTION CONTROL4.1Commissioning Hints4.2Function Control
5.TECHNICAL DATA5.1Power Supply5.2Input Characteristics5.2.1Digital Signal Inputs (connectors X1,X2)
5.3Output Characteristics5.3.1Digital Signal Outputs (connectors X3,X4)5.3.2Total Load
5.4Interface5.4.1Input Characteristics5.4.2Output Characteristics5.4.3Transfer Characteristics
5.5Setting Values5.6Transfer Characteristics5.7Monitorings5.7.1Supply Voltage Monitoring5.7.2Input Protection5.7.3Watchdog (program sequence controller)
5.8Environmental Characteristics5.8.1Permissible Ambient Temperature5.8.2Climate Stability5.8.3Mechanical Stability5.8.4EMC (Electromagnetic Compatibility)5.8.5Altitude of Installation5.8.6Protection Means5.8.7Test Voltages
5.9Reliability
6.CONSTRUCTION DATA6.1Dimensions6.2Weight6.3Setting-, Display- and Control Elements6.4Connectors6.4.1Fieldbus6.4.2Binary I/O6.4.3Power Supply +24 Volt
7.ORDER INFORMATION