參數(shù)資料
型號: HMC105
英文描述: SPST RF Absorptive Switch
中文描述: 聚苯乙烯吸收射頻開關(guān)
文件頁數(shù): 6/15頁
文件大?。?/td> 190K
代理商: HMC105
HMC10XX FAMILY
6
Honeywell magnetoresistive sensors are simple resistive
bridge devices (Figure 1) that only require a supply voltage
to measure magnetic fields. When a voltage from 0 to 10
volts is connected to Vbridge, the sensor begins measuring
any ambient, or applied, magnetic field in the sensitive axis.
In addition to the bridge circuit, the transducer has two on-
chip magnetically coupled straps—the OFFSET strap and
the Set/Reset strap. These straps are patented by Honeywell
and eliminate the need for external coils around the devices.
-80
-60
-40
-20
0
20
40
-
-
-
-
-
-
0
0
0
0
1
1
1
Applied Field (Gauss)
O
bridge
offset
external
offset
response
after Ireset
response
after Iset
Vcc=8V
Figure 2—Output Voltage vs. Applied Magnetic Field
Figure 1—On-Chip components (HMC1001)
OUT+
(5)
OUT-
(8)
Vbridge
(7)
GND
(4)
R=600-1200
R
R
R
R
OFFSET +
(2)
S/R +
(1)
OFFSET -
(6)
S/R -
(3)
2.0
max.
3.5
max.
Iset, -Ireset
Ioffset
Magnetoresistive sensors are made of a nickel-iron
(Permalloy) thin film deposited on a silicon wafer and
patterned as a resistive strip. In the presence of an applied
magnetic field, a change in the bridge resistance causes a
corresponding change in voltage output.
An external magnetic field applied normal to the side of the
film causes the magnetization vector to rotate and change
angle. This in turn will cause the resistance value to vary (
R/
R) and produce a voltage output change in the Wheatstone
bridge. This change in the Permalloy resistance is termed the
magnetoresistive effectand is directly related to the angle of
the current flow and the magnetization vector.
During manufacture, the easy axis (preferred direction of
magnetic field) is set to one direction along the length of the
film. This allows the maximum change in resistance for an
applied field within the permalloy film. However, the influence
of a strong magnetic field (more than 10 gauss) along the
easy axis could upset, or flip, the polarity of film
magnetization, thus changing the sensor characteristics.
Following such an upset field, a strong restoring magnetic
field must be applied momentarily to restore, or set, the
sensor characteristics. This effect will be referred to as
applying a set pulse or reset pulse. Polarity of the bridge
output signal depends upon the direction of this internal film
magnetization and is symmetric about the zero field output.
The OFFSET strap allows for several modes of operation
when a dc current is driven through it.
An unwanted magnetic field can be subtracted out
The bridge offset can be set to zero
The bridge output can drive the OFFSET strap to cancel
out the field being measured in a closed loop configuration
The bridge gain can be auto-calibrated in the system on
command.
The Set/Reset (S/R) strap can be pulsed with a high current to:
Force the sensor to operate in the high sensitivity mode
Flip the polarity of the output response curve
Be cycled during normal operation to improve linearity
and reduce cross-axis effects and temperature effects.
The output response curves shown in Figure 2 illustrate the
effects of the S/R pulse. When a SET current pulse (Iset) is
driven into the SR+ pin, the output response follow the curve
with the positive slope. When a RESET current pulse
(Ireset) is driven into the SR- pin, the output response follow
the curve with the negative slope. These curves are mirror
images about the origin except for two offset effects.
In the vertical direction, the bridge offset shown in Figure 2,
is around -25mV. This is due to the resistor mismatch during
the manufacture process. This offset can be trimmed to zero
by one of several techniques. The most straight forward
technique is to add a shunt (parallel) resistor across one leg
of the bridge to force both outputs to the same voltage. This
must be done in a zero magnetic field environment, usually
in a zero gauss chamber.
The offset of Figure 2 in the horizontal direction is referred to
here as the external offset. This may be due to a nearby ferrous
object or an unwanted magnetic field that is interfering with the
applied field being measured. A dc current in the OFFSET
strap can adjust this offset to zero. Other methods such as
shielding the unwanted field can also be used to zero the
external offset. The output response curves due to the SET
and RESET pulses are reflected about these two offsets.
BASIC DEVICE OPERATION
(1001/1002)
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