LINEAR_DIMENSIONS LNDINA333B

ADVANCE DATASHEET
D
LNDINA333A/B/C
INA333 Footprint Compatible Instrumentation
Amplifiers (INA) use 50% Less Current
 Fully differential AC Only (LND
GENERAL DESCRIPTION
FEATURES
The LNDINA333A/B/C are precision instrumentation
amplifiers designed to be footprint compatible with the TI
INA333. Although the LNDINA333 are footprint compatible
they offer similar performance to the INA333 with a 30%
reduction in power consumption (25uA typical and 30uA
maximum vs. 50uA typical and 80uA maximum for the
INA333). The LNDINA333A has a single ended output
replicating the INA333A while the outputs of LNDINA333B/C
are fully differential.
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If an RG resistor is connected between the RG pins then the
differential current will be set by the external resistor. On the
other hand if the RG inputs remain high impedance then a
pulse on RG/DIG- will cause an internal resistor to decrement
in value, while a pulse on RG/DIG+ will cause the internal
resistor to increment in value. Default is half scale.
The LNDINA333C is an AC only instrumentation amplifier
which has a 5Hz 3dB high pass response. Integrators are
connected between the output and feedback nodes to form a
high pass response as shown in the block diagram below.
The LNDINA333A/B/C features 8kV HBM ESD protection
compared to 4kV with the INA333. The inputs are also RFI
filtered to reduce EMI susceptibility.
The LNDINA333A/B/C is available in a EPAD DFN-8 package
which has a 65°C/W thermal resistance.
BLOCK DIAGRAM
RG/DIG+
GND
EPAD
INP
INM
RG/DIGVDD
VOUT/VOP
REF/VOM
Instrumentation Amplifier
Single ended (LNDINA333A)
Fully differential (LNDINA333B)
Fully differential AC only (LNDINA333C)
+2.7V to +5.5V input range
25μA typ current consumption (INA333, 50μA)
35μA typ current (LNDINA333C)
350kHz typical bandwidth
25μV typical input offset voltage
100dB typical CMRR
100nV/√Hz typical input referred noise
RFI Filtered Inputs
External resistor or programmable gain
Minimum gain setting 100V/V
Input range: GND-0.1V to VDD+0.1V
Output range: GND+0.05V to VDD-0.05V
Low drift: 2μV/°C typical
+/-5pA typical input bias current
10mA short circuit current
8kV ESD Protection (vs. 4kV for INA333)
Temperature range: -40°C to 125°C
Footprint compatible with EPAD DFN-8
APPLICATIONS
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Portable heart rate equipment
Portable fitness & wellness products
Non-critical diagnostics
Vibration measurement equipment
Instrumentation
Bridge amplifiers
Pressure sensors
Weigh scales
Sensor amplifiers
PACKAGE
RG/DIG+
INP
Figure 1 – LNDINA333C Equivalent Block Diagram
GND
RG/DIG-
EPAD
INM
VDD
VOUT/VOP
REF/VOM
 Linear Dimensions Semiconductor Inc.  22620 Ricardo Rd, Cupertino CA 95014 USA  tel 312.321.1810  fax 312.321.1830  www.lineardimensions.com 
LNDINA333A, LNDINA333B, LNDINA333C
INPUT
Offset Voltage
vs Te m perature
-100
Common-Mode Voltage Range
Common-Mode Rejection
25
-40°C < t < 125°C
100
(V-)+0.1
μV
μV/°C
2
(V+)-0.1
V
DC to 60Hz, VCM=(V-)+0.1V to (V+)-0.1V
Gain = 100
90
100
dB
Gain = 1000
90
100
dB
INPUT BIAS CURRENT
Input Bias Current
+-5
+-50
pA
Input Offset Current
+-5
+-50
pA
INPUT NOISE
Input Voltage Noise
G=100
f = 100Hz
100
nV/√ Hz
f = 1kHz
50
nV/√ Hz
μVpp
f = 0.1Hz to 10Hz
Input Current Noise
f = 1kHz
1
fA/√ Hz
GAIN
Gain Equation
1 + 100kΩ/RG
Range of Gain
Gain Error
100
2000
VS=3.3V, (V-) + 0.1V < V O < (V+) - 0.1V
G = 100
+-0.1
+-0.25
G = 1000
+-0.25
+-0.5
%
+-15
+-50
ppm /°C
Gain vs Tem pe rature
%
Gain Nonlinearity
G = 250 to 2000
10
ppm
OUTPUT
Output Voltage Sw ing From Rail
50
mV
Capacitive Load Drive
200
pF
Short-circuit Current
+-10
mA
3.5
kHz
FREQUENCY RESPONSE
Bandw idth, -3dB
G = 100
350
Hz
Slew Rate
G = 1000
0.03
V/μs
Settling Time to 0.01%
500
μs
REFERENCE OUTPUT
VREF
0.88
0.9
0.92
V
POWER SUPPLY
Voltage Range
2.7
Quiescent Current
5.5
V
27
μA
30
μA
0.9
0.92
V
35
38
μA
42
μA
V
25
vs Te m perature
LNDINA333B
Common-Mode Output Voltage
0.88
LNDINA333C
Quiescent Current
vs Te m perature
Common-Mode Output Voltage
0.9
V S/2
0.92
Middle-Point Common Mode Point
0.88
Low -Pass Filter Cutoff Frequency
2.5
5
V
Hz
 Linear Dimensions Semiconductor Inc.  22620 Ricardo Rd, Cupertino CA 95014 USA  tel 312.321.1810  fax 312.321.1830  www.lineardimensions.com 