mxd2020g ETC-unknow, mxd2020g Datasheet - Page 3
mxd2020g
Manufacturer Part Number
mxd2020g
Description
Improved, Ultra Noise Dual Axis Accelerometer With Digital Outputs
Manufacturer
ETC-unknow
Datasheet
1.MXD2020G.pdf
(7 pages)
ABSOLUTE MAXIMUM RATINGS*
Supply Voltage (V
Storage Temperature ……….…………-65°C to +150°C
Acceleration ……………………………………..50,000 g
*Stresses above those listed under Absolute Maximum Ratings may cause permanent
damage to the device. This is a stress rating only; the functional operation of the
device at these or any other conditions above those indicated in the operational
sections of this specification is not implied. Exposure to absolute maximum rating
conditions for extended periods may affect device reliability.
Pin Description: LCC-8 Package
Ordering Guide
Model
MXD2020GL
MXD2020GF
MXD2020HL
MXD2020HF
MXD2020ML
MXD2020MF
MXD2020NL
MXD2020NF
All parts are shipped in tape and reel packaging.
Caution:
MEMSIC MXD2020G/M/N/H Rev.E
1
2
3
Pin
1
2
3
4
5
6
7
8
Y +g
Top View
ESD (electrostatic discharge) sensitive device.
Name
T
D
Gnd
V
D
V
Sck
V
OUT
8
4
OUTY
DA
OUTX
ref
DD
Package Style
RoHS compliant
LCC8, Pb-free
RoHS compliant
LCC8, Pb-free
RoHS compliant
LCC8, Pb-free
RoHS compliant
LCC8, Pb-free
DD
, V
Description
Temperature (Analog Voltage)
Y-Axis Acceleration Digital Signal
Ground
Analog Supply Voltage
X-Axis Acceleration Digital Signal
2.5V Reference
Optional External Clock
Digital Supply Voltage
7
6
5
LCC8
LCC8
LCC8
LCC8
DA
X +g
) ………………...-0.5 to +7.0V
Output
100 Hz
100 Hz
100 Hz
100 Hz
400 Hz
400 Hz
Digital
400Hz
400Hz
Temperatu
-40 to 105°
-40 to 105°
-40 to 105°
-40 to 105°
re Range
0 to 70°C
0 to 70°C
0 to 70°C
0 to 70°C
Page 3 of 7
Note: The MEMSIC logo’s arrow indicates the +X sensing
direction of the device. The +Y sensing direction is rotated 90°
away from the +X direction following the right-hand rule.
circle indicates pin one(1).
THEORY OF OPERATION
The MEMSIC device is a complete dual-axis acceleration
measurement system fabricated on a monolithic CMOS IC
process. The device operation is based on heat transfer by
natural convection and operates like other accelerometers
having a proof mass. The proof mass in the MEMSIC
sensor is a gas.
A single heat source, centered in the silicon chip is
suspended across a cavity. Equally spaced
aluminum/polysilicon thermopiles (groups of
thermocouples) are located equidistantly on all four sides of
the heat source (dual axis). Under zero acceleration, a
temperature gradient is symmetrical about the heat source,
so that the temperature is the same at all four thermopiles,
causing them to output the same voltage.
Acceleration in any direction will disturb the temperature
profile, due to free convection heat transfer, causing it to be
asymmetrical. The temperature, and hence voltage output
of the four thermopiles will then be different. The
differential voltage at the thermopile outputs is directly
proportional to the acceleration. There are two identical
acceleration signal paths on the accelerometer, one to
measure acceleration in the x-axis and one to measure
acceleration in the y-axis. Please visit the MEMSIC
website at www.memsic.com for a picture/graphic
description of the free convection heat transfer principle.
3/25/2005
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