Table 5-6: alarm hysteresis registers – PNI RM3100 Evaluation Board User Manual
Page 23
PNI Sensor Corporation
Doc 1017252 r02
RM3100 Evaluation Board User Manual
Page 22 of 33
Since the registers are adjacent, it is not necessary to send multiple register addresses,
as the RM3100 Evaluation Board automatically will read/write to the next adjacent
register.
Relative Alarm Mode
In Relative Alarm Mode the limits for each axis initially are set by the Alarm Lower
Limit and Alarm Upper Limit value registers, as given in Table 5-5, similar to
Absolute Alarm Mode. However, when the ALARM bit is triggered and set HIGH,
the limit values are changed using the Alarm Hysteresis Values, given in Table 5-6.
Table 5-6: Alarm Hysteresis Registers
Register Description
Register
Name
Read
(Hex)
Write
(Hex)
X Axis Alarm Hysteresis - MSB
ADLX1
9E
1E
X Axis Alarm Hysteresis - LSB
ADLX0
9F
1F
Y Axis Alarm Hysteresis - MSB
ADLY1
A0
20
Y Axis Alarm Hysteresis - LSB
ADLY0
A1
21
Z Axis Alarm Hysteresis - MSB
ADLZ1
A2
22
Z Axis Alarm Hysteresis - LSB
ADLZ0
A3
23
Since the registers are adjacent, it is not necessary to send multiple register addresses,
as the RM3100 Evaluation Board automatically will read/write to the next adjacent
register.
The new lower limit and upper limit values are defined as follows:
AUL
= M + ADL
ALL
= M – ADL
where AUL and ALL represent the new lower and upper limit register values, M is
the measured value that caused the ALARM bit to go HIGH, and ADL is the Alarm
Hysteresis Value.
Example of Absolute vs Relative Alarm Modes
Table 5-7 provides an example of how the Absolute and Relative Alarm Modes work
under the same conditions. This is illustrative purposes, and the MX readings would
depend on many things including the cycle count value and the magnetic field. In this