AFMS Audible Flow Monitoring System TECHNICAL SPECIFICATION

968 AFMS AFMS TECHNICAL SPECIFICATION 08/07 Ref B ATV-ELEKTRONIK GMBH WIENER STRASSE 228 A-4030 LINZ +43 732 301600 FAX. +43 732 301600 21

Page 2 Table of contents General Introduction...3 Overview...3 Measuring system and configuration...3 Equipment specification...4 Audible sensor...4 Terminalbox...6 Audible Flow Monitor...8 Operation and maintenance... 16 Calibration... 16 Operation modes... 17 Repair... 18 Part List... 19 Corrections... 20 Ref A... 20 Ref B... 20

Page 3 General Introduction Overview The plus the sensors is a material flow-measuring system, which is using the vibration measuring principle. The vibrations are detected by the sensors, acting as a directional microphone, and converted into an electrical signal. Configurations from minumum 2 sensors to maximum 14 sensors are possible. Measuring system and configuration

Page 4 Equipment specification Audible sensor All hoods and housing are in accordance with International Standard IEC 529 (DIN 40 050) degree of protection IP 65 which specifies that enclosures are protected against windblown, dust and rain, splashing water and hose directed water. Specifications: Temperature range sensor -40 C to +130 C Temperature range electronic 0 C to +100 C Caution! Electrostatic discharge can degrade performance or damage electronic modules. Touch a grounded object to rid yourself of charge before handling the modules. Sensor wiring Warning! Make electrical connections with the power supply switched off! Use commercial 2-core installation cable (shielded), max. line resistance 25ohm/core, Nominal Cross sectional Area 0,5-2,5 mm², for the connection between transmitter (sensor) and local terminal-box. Use cable entry protection for the Heavy Duty Han Connectors.

10 10 Page 5 Sensor connection Terminal Assignments 6pin 1 +24VDC power supply Heavy Duty Han Connector: 2 4-20mA current loop signal 3 nc (-X861 TO -X874) 4 nc 5 nc 6 nc PE shield Sensor dimensions M8 36 60 15 119 34 69 35 224 220 11 43 11 65

Page 6 Terminalbox Interconnection diagram to flow monitor from transmitter s -X860 +24VDC power supply sensor 1 1 +24VDC power supply sensor 1 4-20mA current loop signal sensor 1 2 4-20mA current loop signal sensor 1 +24VDC power supply sensor 2 3 +24VDC power supply sensor 2 4-20mA current loop signal sensor 2 4 4-20mA current loop signal sensor 2 +24VDC power supply sensor 3 5 +24VDC power supply sensor 3 4-20mA current loop signal sensor 3 6 4-20mA current loop signal sensor 3 +24VDC power supply sensor 4 7 +24VDC power supply sensor 4 4-20mA current loop signal sensor 4 8 4-20mA current loop signal sensor 4 +24VDC power supply sensor 5 9 +24VDC power supply sensor 5 4-20mA current loop signal sensor 5 10 4-20mA current loop signal sensor 5 +24VDC power supply sensor 6 11 +24VDC power supply sensor 6 4-20mA current loop signal sensor 6 12 4-20mA current loop signal sensor 6 +24VDC power supply sensor 7 13 +24VDC power supply sensor 7 4-20mA current loop signal sensor 7 14 4-20mA current loop signal sensor 7 +24VDC power supply sensor 8 15 +24VDC power supply sensor 8 4-20mA current loop signal sensor 8 16 4-20mA current loop signal sensor 8 --- S sensor 1 shield S sensor 2 shield S sensor 3 shield shield S sensor 4 shield S sensor 5 shield S sensor 6 shield S sensor 7 shield

15 76 62 72 90 16 37.5 29 150 100 132 148 Page 7 S sensor 8 shield Dimensions 300 120 275 29 221 202 15.5 79.5 R7 3.5 192 298 282

Page 8 Audible Flow Monitor Technical data Line voltage : 230VAC (115VAC), +/- 5%, 50-60Hz with integrated line fuse (5*20mm) T315mA Outline dimensions : 19 Rack (84TE, 3HE) 485mmx135mmx340mm Specifications : Power : Temperature range Flow Monitor 0 C to +60 C housing with protection code IP 20 (Speaker) 50VA Dual Sensor logic module Spare Audio ampilifier Speaker Power supply Front view Rear view

Page 9 Dual Sensor Logic Module EAR EAR ALARM SIGNAL ALARM SIGNAL LED Alarm LED Signal Gain adjustment Channel Trigger adjustment Ear jack / Mode switch LED Alarm LED Signal Gain adjustment Trigger adjustment Ear jack / Mode switch Channel Channel A Loop number Channel B Jumper Offset Gain Channel Gain Offset Channel

Page 10 Power Supply module +5V +12V -12V +24V Power Ok LED Power switch AFMS-NT POWER SUPPLY Audio amplifier module 7 8 5 6 9 10 4 11 3 12 2 13 1 14 OFF Channel selector SELECT Volume VOLUME AFMS-AMP AMPLIFIER

130.5 74.0 4.0 112.5 122.5 Rear Front 3 HU 114.5 57.2 Page 11 Speaker module ELEKTRONIK Basic unit 482.6 465.0 84 x 5.08 = 426.72 10.8 Front view 303.8 28 X 10 18.8 30.0 10.0 4.0 5.0 4 X 60 60.0 15.0 Side view Panel output : 445mm * 132mm Space for cabeling on rearside approx. 100mm

62.5 400 12 X 25=300 50.0 28 X 12.5=350 30 X 12.5=375 12.5 12.5 3.0 12.5 3.0 6.25 50.0 62.5 62.5 44.45 163.65 3 HU 163.65 163.65 9.5 12.7 31.75 6.5 Page 12 Table case (optional) A 534.0 509.0 484.0 465.0 450.0 SECTION B:B A B SECTION A:A Y DETAIL Y 506.0 14.5 15.0 DETAIL Z 18.75 R3.0 450.0 465.0 484.0 509.0 534.0

Page 13 Installation Warning! Make electrical connections with the power supply switched off! Use commercial 16-core installation cable (shielded), max. line resistance 25ohm/core, Nominal Cross sectional Area 0,5-2,5 mm², for the connection between terminal-box and flow monitor. 16pin Heavy Duty Han Connector (-X31.1) 1 +24VDC power supply sensor 1 2 +24VDC power supply sensor 2 3 +24VDC power supply sensor 3 4 +24VDC power supply sensor 4 5 +24VDC power supply sensor 5 6 +24VDC power supply sensor 6 7 +24VDC power supply sensor 7 8 +24VDC power supply sensor 8 9 4-20mA current loop signal sensor 1 10 4-20mA current loop signal sensor 2 11 4-20mA current loop signal sensor 3 12 4-20mA current loop signal sensor 4 13 4-20mA current loop signal sensor 5 14 4-20mA current loop signal sensor 6 15 4-20mA current loop signal sensor 7 16 4-20mA current loop signal sensor 8 PE shield 16pin Heavy Duty Han Connector (-X31.2) 1 +24VDC power supply sensor 9 2 +24VDC power supply sensor 10 3 +24VDC power supply sensor 11 4 +24VDC power supply sensor 12 5 +24VDC power supply sensor 13 6 +24VDC power supply sensor 14 7 nc 8 nc 9 4-20mA current loop signal sensor 9 10 4-20mA current loop signal sensor 10 11 4-20mA current loop signal sensor 11 12 4-20mA current loop signal sensor 12 13 4-20mA current loop signal sensor 13 14 4-20mA current loop signal sensor 14 15 nc 16 nc PE shield

Page 14 37pin SUB-D Female Connector (-X30.1) 1 4-20mA current loop bargraph signal 1 + 2 4-20mA current loop bargraph signal 2 + 3 4-20mA current loop bargraph signal 3 + 4 4-20mA current loop bargraph signal 4 + 5 4-20mA current loop bargraph signal 5 + 6 4-20mA current loop bargraph signal 6 + 7 4-20mA current loop bargraph signal 7 + 8 4-20mA current loop bargraph signal 8 + 9 4-20mA current loop bargraph signal 9 + 10 4-20mA current loop bargraph signal 10 + 11 4-20mA current loop bargraph signal 11 + 12 4-20mA current loop bargraph signal 12 + 13 4-20mA current loop bargraph signal 13 + 14 4-20mA current loop bargraph signal 14 + 15 nc 16 nc 17 nc 18 nc 19 nc 20 4-20mA current loop bargraph signal 1-21 4-20mA current loop bargraph signal 2-22 4-20mA current loop bargraph signal 3-23 4-20mA current loop bargraph signal 4-24 4-20mA current loop bargraph signal 5-25 4-20mA current loop bargraph signal 6-26 4-20mA current loop bargraph signal 7-27 4-20mA current loop bargraph signal 8-28 4-20mA current loop bargraph signal 9-29 4-20mA current loop bargraph signal 10-30 4-20mA current loop bargraph signal 11-31 4-20mA current loop bargraph signal 12-32 4-20mA current loop bargraph signal 13-33 4-20mA current loop bargraph signal 14-34 nc 35 nc 36 nc 37 nc

Page 15 25pin SUB-D Female Connector (-X30.2) 1 Audio signal 1 2 Audio signal 2 3 Audio signal 3 4 Audio signal 4 5 Audio signal 5 6 Audio signal 6 7 Audio signal 7 8 Audio signal 8 9 Audio signal 9 10 Audio signal 10 11 Audio signal 11 12 Audio signal 12 13 Audio signal 13 14 Audio signal 14 15 nc 16 nc 17 GND 18 GND 19 GND 20 GND 21 GND 22 GND 23 GND 24 GND 25 GND 25pin SUB-D Male Connector 1 Alarm sensor 1 (NC) X5 (-X30.3) 2 Alarm sensor 2 (NC) 3 Alarm sensor 3 (NC) 4 Alarm sensor 4 (NC) 5 Alarm sensor 5 (NC) 6 Alarm sensor 6 (NC) 7 Alarm sensor 7 (NC) 8 Alarm sensor 8 (NC) 9 Alarm sensor 9 (NC) 10 Alarm sensor 10 (NC) 11 Alarm sensor 11 (NC) 12 Alarm sensor 12 (NC) 13 Alarm sensor 13 (NC) 14 Alarm sensor 14 (NC) 15 nc 16 nc 17 ΣAlarm 18 nc 19 nc 20 nc 21 nc 22 nc 23 Alarm 1..8 Slot 1-4 (NO) 24 Alarm 9..14 Slot 5-7 (NO) 25 ΣAlarm common

Page 16 Operation and maintenance Calibration Preparing for adjustments: Connect a oscilloscope over the 47Ohm resistor which is placed beside the lower front trimmer (make sure there is no earth potential on the probe). Connect a function-generator between ground and the current loop signal input (pin 9 to 15 of HAN-connector) and apply a sinusoidal voltage with a frequence of 1kHz. Adjust the amplitude until 3Vss (1Veff). Adjusting the audio part: Now connect the oscilloscope between ground and the corresponding audio signal output and adjust the amplitude with the upper front trimmer (gain) to 6Vss (2.1Veff). Adjusting the bargraph output: For this adjustment, it is necessary to connect a shunt (33Ohm-470Ohm) at the bargraph output at the 37pin SUB-D-connector at the rear and measure the current flows through the shunt. Turn the two trimmers on the top of the PCB (left pair for the first channel) alternately until 4mA flows if no signal is applied, respectively 20mA at full input signal (500k = Offset, 10k = Gain). Adjusting the alarm part: Adjusting the alarm part is very simply: Reduce the signal from the function-generator to the half (1.4Vss = 500mVeff) and turn the lower front trimmer until the signal-led-alarm goes on.

Page 17 Operation modes When power-switch is on, the four red lamps above the power-switch illuminates, that the power supply is operating and all voltages are ok. If one of these lamps remain dark, there is a fault. The two green flow indication lamps on each Sensor-Logic-Card shows the status of the audible sensor s. Two operating modes allow the to check Flow and No Flow. The operating modes are selected on the Sensor-Logic-Card by choosing up-position (No Flow) or down-position (Flow) of the sensor switch. In the middle-position no alarm-output is active. If the function of the is changed (Flow / No Flow), it is necessary, to wait in the middle-position of the sensor switch until the alarm lamp is off. In Flow-Mode,the alarm output is set, when no trigger-impulse is coming from transmitter for the selected time. In No-Flow-Mode the reason of an occured error is the same, but in this mode the trigger-impulse has still standing longer then the selected time. The trigger-time can be selected by the two jumpers on each Sensor-Logic-Card. This jumpers are near the 64pin bus-connector. There is the possibility of selecting four different trigger-times, which are defined as follows: J1 close open close open J2 close close open open Time 15sec 30sec 45sec 60sec J1 means the upper jumper, J2 the lower jumper, when the front panel is on the left hand side. With the Audio-Select-Switch on the Amplifier-Card you can select the source of the audioamplifier. In position 0 the audio-amplifier is turned off. This audio signal can also take of with a standard stereo headphone at the 3.5mm connector on the front of the Sensor-Logic-Cards. There is also the possibilty of connecting an oscilloscope to the headphone output. So the signals can be visually adjusted to the same level. Additional, on connector -X4 there are the audio signals from the several channels. On -X9 there are several alarm signals available. Pin 1 to 14 carries the single alarms (NC). Pin 23 and 24 is the group alarm (NO). -X3 carries the filtered input signal as a current loop signal (4mA means no input signal, 20mA means full input signal). The load resistance may be from 33Ohm to 470Ohm. If the load resistance is to low, there is the possibility of static damage of the Audible Flow Monitoring System. Warning! Connect this output only to an insulated device. Connecting to an non-insulated device may cause in static damage of the and of the external device. If the device is in the No-Flow-Mode, there is no alarm if the sensor is disconnected or faulty.

Page 18 Repairs Check the condition of the probes during regular maintence inspections. If necessary, free them of build-up. Remember that all probes are sensitive instruments and must be treated accordingly. Should the Flow Monitor or its sensor need to be repaired, send the defect modul to ATV- Elektronik, with a note containing the following information: A short description of the fault

Page 19 Part List Denomination Type (Order Code) Basic unit 19 84TE, 3HE (consisting of basic unit AFMS Rack bus system connectors -X30 and -X31) Dual Sensor Logic Module Power supply Module Audio amplifier Module Speaker module Audible sensor Table case for basic unit (optional) Terminal box for 8 Audible sensors AFMS_SLC AFMS_NT AFMS_AMP AFMS Speaker AFMS Sensor Amplifier AFMS Case AFMS Terminal

Page 20 Corrections Ref A: Page 16 Preparing for Adjustments: Changed the amplitude of the sinusodial voltage from 8Vss to 3Vss. Ref B: Page 15 25pin SUB-D Male Connector X5 (-X30.3): sketch added 23: Changed common to Slot1-4 24: Changed common to Slot5-7