Table 5-10. alarm status -16 – Basler Electric BE1-851E DNP3 Protocol User Manual

request, with FC= 5 or 6, specific Binary Output Status points can not be first Enabled via its

Mode point of object 41, and immediately after that controlled (object 12). For example: To control

any 43 Aux Control Relay Output Block, Master should do the following steps:
1. Enable control of 43x Aux Switch(s) via request(s) with FC=(3, 4) or 5 or 6 for specific point(s)

of object 41.

2. Control Binary Output Status point(s) (object 12) via next request(s).

2. Hardware Output Logic Control Mode can be 0 (Disable) or 1(Enable). If hardware outputs are to

be controlled via object 12 (Control Relay Output Blocks), their control must be Enabled through

this point. For more information see the BE1-851E Instructional Manual, Section 11, ASCII

Command Interface, CS/CO-OUT=ENA/DIS .

3. x43 AUX Virtual Switch Logic Mode can be 0 for Disabled, 1 = ON/OFF/PULSE, 2 = ON/OFF, and

3= OFF/MOMENTARY ON. Depending on the Logic Mode value, the AUX x43 Switch may or may

not be successfully controlled via the Control Relay Output Blocks; points 14 to 17.

4. Setting Group Mode can be 0(disable), 1 (discrete select) or 2 (binary select). If Setting Group is to

be switched via object 12 (Control Relay Output Blocks), this must be first Enabled through this

point.

5. Logic Mode of 101 Breaker Control Switch can be 0 (disabled) or 1 (enabled). Depending on Logic

Mode value, 101 Switch can or cannot be successfully controlled via Control Relay Output Blocks;

point 23.

6. Target Status Reset Control can only be reset (the only acceptable value to write to point 7 is 0). A

read of this point returns 1 if there are active targets, or 0 if targets are not active. When resetting

this point, latched Targets Status is also reset (see Analog Input Objects, points 15 and 16).

7. Major, Minor, and Logic Alarms are 32 bit mapped variables as described in Table 5-10. Writing

value 0 will reset the alarms. Note that only latched alarms will be cleared. Programmable Alarms

can be read as Binary Input (object 1) points from 48 to 73.

Table 5-10. Alarm Status

Bit Mask (hex)

Name

Bit Mask (hex)

Name

00000001

OUT1 CKT OPEN

00010000

EE NON -FATAL ERR

00000002

Breaker Fail

00020000

OUTPUT OVERRIDE

00000004

Reclose Fail

00040000

LOSS OF IRIG

00000008

Reclose Lockout

00080000

Setting Group Change Alarm Active

00000010

Breaker Alarm #1

00100000

VO13 LOGIC ALARM

00000020

Breaker Alarm #2

00200000

VO14 LOGIC ALARM

00000040

Breaker Alarm #3

00400000

VO15 LOGIC ALARM

00000080

P Demand

00800000

FLT RPT TIMEOUT

00000100

N Demand

01000000

LOGIC=NONE

00000200

Q Demand

02000000

Setting Changes Lost due to Access

Time Out

00000400

Group Override

04000000

Spare

00000800

SYS I/O Delay

08000000

spare

00001000

Communication Error

10000000

spare

00002000

Clock Error

20000000

spare

00004000

uP Reset

40000000

spare

00008000

Settings Changed

80000000

spare

8. Relay Trouble Alarms can be reset by writing value 0 to this point. This is a 16-bit mapped variable

and is described in Table 5-11. Only alarms with a star (*) are implemented and can be read as

Binary Input (object 1) points from 74 to 78.

5-16

BE1-851E DNP Protocol

9289900792 Rev C