LSI LS6525 Battery powered low-power pir sensor interface Datasheet

LS6525
LS6526
Nov2015
BATTERY POWERED LOW-POWER PIR SENSOR INTERFACE
FEATURES:
•
•
•
•
•
•
•
•
•
Power derived from 3.0V Lithium battery
VDD operating range 2.3V to 3.6V
25μA maximum quiescent current (LS6525)
30μA maximum quiescent current (LS6526)
Direct interface with PIR sensor
Analog signal and digital interrupt signal outputs for interfacing
with a MCU
2.175V regulated output
Low battery indicator output (LS6526)
LS6525 (DIP), LS6525-S (SOIC)
LS6526 (DIP), LS6526-S (SOIC)
PIN ASSIGNMENT
APPLICATIONS:
The low operating voltage and low current drain make the LS6525 /
LS6526 ideal for microcontroller based portable applications such as
battery operated motion detectors and photographic equipment,
automatic doors, intrusion detection, and anywhere electric outlets
are not available.
DESCRIPTION:
The LS6525 / LS6526 is a CMOS integrated circuit designed for
detecting motion from a PIR sensor and is microcontroller interface
ready. It uses a 3.0V Li battery as a source of energy for its
operation. The detailed description of the functional blocks is as
follows (refer to Figure 2).
Figure 1
AMPLIFIERS
The input PIR preamplifier, AMP1, has a nominal gain set at 29V/V
using internal resistors. An internal bias is used so that AMP1O
output has a quiescent voltage of 1.1V. The output of the PIR
amplifier is AC coupled to a second amplifier (AMP2) which uses
external components to set the gain. This second stage is internally
biased and applied to a window comparator which has lower and
higher trip levels set with respect to that bias. External components
are used to set a typical gain of 22V/V. Amplified signals greater in
magnitude than the trip levels will cause an interrupt signal to be
generated at the INT open drain output, pin 12. The INT output can
be pulled to a voltage higher than VDD (pin 13).
The output of the PIR amplifier is also AC coupled to an additional
amplifier (MCU amplifier) which uses external components to set the
gain. An internal bias set the MCO output at 0.5V and external
resistors set a typical gain = 10V/V, the MCO output signal can be
applied to a microcontroller input for processing.
6525-110515-1
INPUT / OUTPUT DESCRIPTION
PIN1 – PYRO Input – Non-inverting input of PIR amplifier AC
coupled to source of PIR signal.
PIN2 – VREG Output – This output provides power to the PIR
Sensor circuit and for all the internal amplifier circuitry.
PIN3 – AMP1O Output – Output terminal of the PIR amplifier
PIN4 – MCP – 0.5V internal bias. (Internal use only. No external
components.)
PIN5 – MCN Input – Inverting input to the MCU amplifier.
PIN6 – MCO Output – Output of the MCU amplifier.
PIN7 – V1P1 – Internally biased to 1.1V and applied to non-inverting input of AMP2. Requires an external bypass capacitor.
PIN8 – AMP2N – Inverting input of AMP2 amplifier.
PIN9 – AMP2O – Output of the AMP2 amplifier.
PIN10 – NC – For LS6525.
PIN10 – LOBAT Output – For LS6526 only. Open drain output requiring an external pull-up resistor to a power-supply that can be higher than VDD.
An active low at the output signifies that a low battery condition exists.
PIN11 – TEST – This pin is not used and must be tied to ground.
PIN12 – INT Output – Open drain output requiring an external pull-up resistor to a power supply that can be higher than VDD. A recognized Interrupt
signal will be an active low at this output.
PIN13 – VDD – Power Supply Voltage
PIN14 – VSS – Power Supply Ground
6525-030713-2
ABSOLUTE MAXIMUM RATINGS:
PARAMETER
DC Supply Voltage
Input Voltage
Operating Temperature
Storage Temperature
SYMBOL
VDD
VIN
TA
TSTG
VALUE
+7
VSS - 0.3 to VDD + 0.3
-40 to +70
-65 to +150
ELECTRICAL CHARACTERISTICS:
(All voltages referenced to VSS, TA = 25°C, VDD = 2.3V - 3.6V, unless otherwise specified.)
PARAMETER
SYMBOL
MIN
TYP
MAX
SUPPLY CURRENT:
VDD = 2.3V – 3.6V
IDD
25
IDD
30
REGULATOR:
Voltage
VR
2.13
2.175
2.22
Source Current Capability
IR
25
UNIT
V
V
°C
°C
UNIT
CONDITIONS
μA
μA
LS6525, No Load@VREG
LS6526, No Load@VREG
V
μA
AMPLIFIERS:
PIR Amplifier
Gain
GP
Input Impedance
MCU amplifier / AMP2
RP
Open Loop Gain
GM
70
MCO Output Quiescent Voltage
AMP2 Internal Reference
Window -Comparator amplifier
Input Sensitivity to INT Output
VQ
VIR
0.48
VS
120
Comparator
VLO, THRESHOLD
VHI, THRESHOLD
INT Output
VOL, INT
VPULL-UP
Lobat
Trip Voltage
Hysteresis
VTRIP
Hys
VOL, LOBAT
VPULL-UP
6525-030713-3
28
29.5
32
V/V
Vi/p 1mVP-P, 10Hz
RL = No Load to 3MΩ
MΩ
2
dB
0.5
1.1
0.52
V
V
μVP
1.02
1.18
AMP1 and AMP2 cascaded for
net gain = 675V/V
V
V
0.1
5.5
V
V
0.1
5.5
V
V
V
V
2.45
0.1
RPULL-UP = 2MΩ, VPULL-UP = 3.6V
RPULL-UP = 2MΩ, VPULL-UP = 3.6V
Figure 2 Block Diagram
*Note: AMP2O will be biased at 1.1V when pins 8 and 9 are connected through R6 as shown in Figure 3.
6525-110515-4
L1 68nH
R1
R2
R3
R4
R5
R6
R7
R8
R9
R10
2MΩ
10kΩ
4.7MΩ
442kΩ
1MΩ
10MΩ
100kΩ
2MΩ
10MΩ
100kΩ
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10
1μF
10μF
1μF
47pF
47pF
3.3μF
1μF
3.3nF
0.16μF
10μF
B1
Typical battery used: 3V CR123A Lithium
PIR Excelitas LHI968 (Typical)
Nicera RE200B (Typical)
Figure 3 Application schematic for LS6526.
For the LS6525, pin 10 has no connection. The gain of AMP2 is set using R6 and R4 to a nominal gain of 22V/V. The MCU amplifier
gain is set to 10V/V using R9 and R5. R10-C9 and R7-C8 are additional filter stages for the MCO and INT outputs when applied to the
microcontroller.
6525-040213-5
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