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BEKA BA307E, Manual

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BEKA BA307E Manual Download Page 12

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6.4  Position of the decimal point:   ‘dP’

A dummy decimal point can be positioned between
any of the digits or it may be absent.  To position
the decimal point select 'dP' from the menu and
press 

P

.   The decimal point can be moved by

pressing the 

 or 

 push-button.  If a decimal

point is not required it should be positioned beyond
the most or least significant digit.   When
positioned as required press the 

E

 button to enter

the selection and return to the configuration menu.

6.5  Calibration using an external
        current source:   ‘CAL’

This function enables the zero and span of the
indicator to be adjusted using an external
calibrated current source.  When used with an
accurate traceable current source this is the
preferred method of calibration.

Zero is the indicator display with 4mA input
Span is the indicator display with 20mA input

To calibrate the indicator select 'CAL' from the
configuration menu and press 

P

.

  The indicator will

display 'ZEro'  which is a request for a 4mA input
current.  Adjust the external current calibrator to
4.000mA and again press 

P

 

which will reveal the

current zero display.   The flashing digit of the
indicator display can be changed by pressing the

 or 

 buttons, when set as required pressing 

P

will transfer control to the next digit.  When all the
digits have been adjusted, press 

E

 to enter the

new zero and return to the 'ZEro' prompt .

Pressing the 

 button will cause the indicator to

display 'SPAn' which is a request for a 20mA input
current.  Adjust the external current calibrator to
20.000mA and again press 

P

 

which will reveal the

existing span display.   The flashing digit of the
indicator display can be changed by pressing the

 or 

 buttons, when set s required pressing 

P

will transfer control to the next digit.  When all the
digits have been adjusted press 

E

 t

o enter the new

span and return to the 'SPAn' prompt.  Finally
press 

E

 

again to return to the configuration menu.

Notes:

a. The indicator input current must be adjusted to

the required value before the zero and span
functions are entered by pressing the 

 button.

b. Indicators may be calibrated at currents other

than 4 and 20mA, withiin the range 3.8 to
21.0mA providing the difference between the
two currents is greater than 4mA.  If these
conditions are not complied with, the indicator
displays ‘FaiL’ and aborts the calibration.

c.  If the zero current is greater than the span

current the instrument will be reverse acting i.e.
an increasing input current will cause the
display to decrease.

6.6  Calibration using internal reference:   ‘SEt’

Using the ‘SEt’ function the indicator can be
calibrated without the need for an accurate
external current source and without the need to
disconnect the indicator from the 4/20mA
measuring loop.

The indicator’s internal reference is used to
simulate a 4mA and 20mA input current, so the
actual indicator input input current does not have
to be known during calibration.

Zero is the display with a simulated 4mA input
Span is the idisplay with a simulated 20mA input

To calibrate the indicator display select 'SEt' from
the configuration menu and press

 

P

.  

The indicator

will display 'ZEro', pressing 

P

 again will reveal the

current display at 4mA.   The flashing digit can be
adjusted by pressing the 

 or 

 buttons,   when

the flashing digit is correct pressing 

P

 

will transfer

control to the next digit.  When all the digits have
been adjusted, press 

E

 to return to the 'ZEro'

prompt.

To adjust the display at 20mA, press the 

 button

which will cause the indicator to display 'SPAn',
pressing 

P

 

will then reveal the indicator’s exisitng

display at 20mA.   The flashing digit can be
adjusted by pressing the 

 or 

 buttons, when

the flashing digit is correct pressing 

P

 will transfer

control to the next digit.  When all the digits have
been adjusted press 

E

  t

o return to the 'SPAn'

prompt followed by 

E

 to return to the ‘SEt’ prompt

in the configuration menu.

6.7  Bargraph format and calibration:   ‘bAr’
       

Only BA327E & BA328E have a bargraph

In addition to a five digit numerical display the two
BA327E and BA328E indicators have a 31
segment analogue bargraph which may be
configured to start and finish anywhere within the
indicators numerical display range.

To configure the bargraph select 'bAr' from the
configuration menu and press

 

P

.  

The indicator will

display 'tYPE', pressing 

P

 again will reveal the

existing bargraph justification which can be
changed to one of the following four or five options
using the 

 or 

 button:

                    

Bargraph starts from

‘LEFt’

Left end of display

‘CEntr’

Centre of display

‘riGHT’

Right end of display

‘AlrSP’

Only with alarms – see section 9.3.14

‘oFF’

Bargraph disabled

When set as required press 

E

 to return to the

‘tYPE’ sub-function prompt.

Summary of Contents for BA307E

Page 1: ...Issue 5 18th April 2013 BA307E BA327E BA308E BA328E intrinsically safe loop powered panel mounting indicators Issue 5 ...

Page 2: ...al reference 7 3 Lineariser error message 7 4 Lineariser under and over range 7 5 Lineariser default configuration 8 Maintenance 8 1 Fault finding during commissioning 8 2 Fault finding after commissioning 8 3 Servicing 8 4 Routine maintenance 8 5 Guarantee 8 6 Customer comments 9 Accessories 9 1 Scale card 9 2 Tag strip 9 3 Alarms 9 3 1 Solid state output 9 3 2 Intrinsic safety 9 3 3 Configuratio...

Page 3: ...Ltd and comply with the European ATEX Directive 94 9 EC The EC Type Examination certificate specifies that under fault conditions the output voltage current and power at the 4 20mA input terminals will not exceed those specified for simple apparatus in Clause 5 7 of EN 60079 11 which simplifies installation and documentation For international applications all models have IECEx certification which ...

Page 4: ...Appendixes 1 and 2 3 1 ATEX gas certification All the models have been issued with a common EC Type Examination Certificate number ITS11ATEX27254X by Notified Body Intertek Testing and Certification Ltd This confirms compliance with harmonised European standards and it has been used to confirm compliance with the European ATEX Directive for Group II Category 1G equipment Ex ia IIC T5 Ta 40 to 70ºC...

Page 5: ...e top outer surface of the instrument enclosure It shows the ATEX certification information instrument serial number year of manufacture plus BEKA associates name and location Non European certification information may also be included a typical label is shown below BA307E certification label 4 SYSTEM DESIGN FOR GAS HAZARDOUS AREAS 4 1 Transmitter loops All indicator models may be connected in ser...

Page 6: ... sufficient to drive the indicator plus the interface When a high integrity earth connection is already available a Zener barrier is usually the least expensive option If an earth connection is not available or isolation is required a galvanic isolator is the correct choice If one side of the 4 20mA current loop may be earthed a single channel Zener barrier provides the lowest cost protection If t...

Page 7: ...48mm and the 144 x 72mm instruments together with the recommended panel cut out dimensions To achieve an IP66 seal between the instrument enclosure and the instrument panel the smaller tolerance aperture must be used and the 144 x 72mm models must be secured with four panel mounting clamps Although the indicator front panel provides IP66 protection it should be shielded from direct sunlight and se...

Page 8: ...the instrument is installed Fig 5 Fitting panel mounting clamps 5 4 Scale card The indicator s units of measurement are shown on a printed scale card in a window at the right hand side of the display The scale card is mounted on a flexible strip that is inserted into a slot at the rear of the instrument as shown in Fig 6 Thus the scale card can easily be changed without removing the indicator from...

Page 9: ...000 0000 Function FunC Std Std Display at 4mA Zero 0 0 0 00 Display at 20mA SPAn 100 0 100 00 Resolution rESn 1 digit 1 digit Bargraph start BarLo 0 00 Bargraph finish BarHi 100 00 P button in display mode C P Tare tArE Off Off Default configuration can easily be changed on site 6 1 Summary of configuration functions This section summarises each of the main configuration functions and includes a c...

Page 10: ...10 ...

Page 11: ...able lineariser To reveal the existing indicator function select FunC from the configuration menu and press P If the function is set as required press E to return to the menu or press the or button to change the setting followed by the E button to return to the configuration menu Std Linear Provides a linear relationship between the 4 20mA indicator input current and the indicator display root Squ...

Page 12: ...se conditions are not complied with the indicator displays FaiL and aborts the calibration c If the zero current is greater than the span current the instrument will be reverse acting i e an increasing input current will cause the display to decrease 6 6 Calibration using internal reference SEt Using the SEt function the indicator can be calibrated without the need for an accurate external current...

Page 13: ... between on and oFF When set as required press E to return to the tARE prompt in the configuration menu 6 10 Security code CodE Access to the instrument configuration menu may be protected by a four digit security code which must be entered to gain access New instruments are configured with the default security code 0000 which allows unrestricted access to all configuration functions To enter a ne...

Page 14: ...illing the tank with known incremental volumes and calibrating the indicator to display the sum of the increments at each break point The number of break points required should first be entered using the Add and dEL functions In both these sub functions the indicator initially displays the current break points and the total number of break points being used as shown below Display Description of fu...

Page 15: ...15 ...

Page 16: ... a new break point before the displayed break point The calibration of existing break points is not changed but the identification number of all subsequent break points is increased by one dEL Remove a break point Removes the displayed break point and joins the preceding break point to the following break point with a straight line The identification number of all subsequent break points is decrea...

Page 17: ...uired press E to return to the 0 n prompt from which the the next break point can be selected using the or buttons When the required break point has been selected press P and set the required indicator display at this break point Repeat this procedure until the indicator display at all the break points has been defined and then return to the SEt function in the configuration menu by pressing the E...

Page 18: ...r fails after it has been functioning correctly follow the procedure shown in section 8 1 If this does not reveal the cause of the fault it is recommended that the instrument is replaced This can be done without disconnecting power but while the indicator is disconnected the 4 20mA loop will be open circuit 8 3 Servicing All BA307E BA327E BA308E and BA328E loop powered indicators are interchangeab...

Page 19: ...urrent powering the indicator is removed both alarm outputs will open irrespective of configuration The open circuit condition should therefore be chosen as the alarm condition when designing an alarm system Fig 10 illustrates the conditions available and shows which are fail safe When an alarm occurs an alarm annunciator on the indicator front panel is activated and if required the numerical disp...

Page 20: ...20 ...

Page 21: ... 2 has identical facilities Summary of alarm configuration functions Display Description of function EnbL Alarm enable Enables or disables the alarm without changing the alarm parameters See section 9 3 4 SP1 Alarm setpoint 1 Adjusts the alarm setpoint The alarm is activated when the indicator display equals the setpoint See section 9 3 5 Hi Lo Alarm function Defines the alarm function as High or ...

Page 22: ...for fail safe operation both alarm outputs should be conditioned to be open in the alarm condition nC To check or change the alarm output status select no nC from the alarm configuration menu and press P to reveal the setting The function may be changed by pressing the or button followed by the E button to return to the alarm configuration menu 9 3 8 Hysteresis HStr Hysteresis is shown in the unit...

Page 23: ...aving access to the indicator configuration menu Protection against accidental adjustment of the setpoints when the indicator is in the display mode is provided by a separate security code This direct setpoint access menu is enabled and the separate security code entered from the ACSP function in the alarm configuration menu as shown in Fig 12 To change the menu parameters select ACSP from the con...

Page 24: ... plus the displayed value to be represented or a low and a high setpoint plus the displayed value to be represented by the bargraph as shown in Fig 15 Fig 15 Displayed value and setpoints on bargraph The bargraph area below the low alarm setpoint and the area above the high alarm setpoint are activated The displayed variable is represented by an activated bar which moves between these low and high...

Page 25: ...those specified by clause 5 7 of EN 60079 11 for simple apparatus which simplifies system design and documentation Providing the increased voltage drop can be tolerated the intrinsic safety and system design described in sections 3 and 4 of this manual remain valid with the loop powered backlight 9 4 2 Separately powering the backlight The optional backlight may also be powered from a separate saf...

Page 26: ...onditions for safe use apply see section A1 4 Having a Minimum Ignition Temperature of Dust cloud 120 C Dust layer on indicator 155 C up to 5mm thick Dust layer on indicator Refer to over 5mm thick EN 60079 14 At an ambient temperature between 40 and 70 C A1 3 Maintenance ENSURE PLANT SAFETY BEFORE STARTING MAINTENANCE Live maintenance is permitted on intrinsically safe equipment installed in a ha...

Page 27: ...ety parameters and installation requirements for both approvals as defined by IEC EN 60079 14 The ATEX gas and dust installation requirements specified in section 5 and Appendix 1 of this manual may therefore be used for IECEx installations but the local code of practice should also be consulted A2 3 Special conditions for use in IIIC dusts The IECEx certificate for the loop powered indicators has...

Page 28: ...ºC and may be used with the following gases Intrinsic Safety Division 1 or 2 Class I Group A B Group C Group D Zone 0 1 or 2 Class 1 Group IIC Group IIB Group IIA The FM and cFM entity parameters are similar to the ATEX and IECEx parameters and the systems shown in section 4 of this manual may therefore also be used for FM and cFM installations A3 2 Nonincendive approval All the models are FM Clas...

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