Download A Precision Low-Level DAS/ECG

A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Created by Dr. John Brown
Prepared by Thomas Kuehl & Laura Groskie
Texas Instruments – Tucson, AZ
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Presentation Outline
• Biopotentials
• Electrocardiogram, ECG
• ECG characteristics
• ECG electrodes and connections
• The DAS/ECG board electrical functions and capabilities
• AC and DC applications for the DAS/ECG board
Biopotentials – Muscle Cell
Muscle Reaction
Resting State
Biopotentials from Cells
Electrical Signals From the Body
EVERY CELL IS LIKE A LITTLE BATTERY
Action
Potential
Voltage
Reversed Potential
+20mV
HUMAN CELL
Volts
-70mV
Na
K
Ca
Cl
+
+
++
-
Na
K
Ca
Cl
+
+
++
-
IONS
0V
Depolarization
-70mV
Time
Repolarization
Resting Potential
Biopotentials from Cells
Electrical Signals From the Heart
Cardiac Conduction System of the Heart
ECG Waveforms
English E C G, German E K G
P, Q, R, S, T, U
Left Heart
Contracts
Biggest Heart Muscle, R Wave
Biopotentials from Cells - Electrodes
IONS to ELECTRONS CONVERTER
Electrodes Convert
DIAGNOSTIC
Ionic Signals From The Body
MONITOR
Into Electrical Signals in Wires
ECG
BP
TEMP
RESP
Na+
K+
Cl -
eee-
Basic ECG electrode connections
ECG is Measure
of Heart as a
Ionic or Electrical
Generator
Vin- INA
Electrocardiogram
Records Electrical
Changes From Beating
Heart
(Left Arm)
Vin = Vin+ - Vin-
+2.5V dc
ECG
+2.5V dc
Heart
+2.5V
+2.5V
Vin+ INA
(Right Arm)
Electrodes Transduce
Ions Into Electrons
Elec
+2.5V dc
Common-mode Volt
= (Vin+ + Vin-)/2
(Used for RL Drive)
ECG Einthoven Triangle, 1907
3 Derived Leads
I, II, III
I = VLA-RL – VRA-RL
3 Body
Electrodes
II = VLL-RL – VRA-RL
RL
Ref
Einthoven’s Law
In electrocardiogram at any
given instant the potential
of any wave in Lead 2 is
equal to the sum of the
potentials in Lead I and III.
III = VLL-RL – VLA-RL
ECG Electrode – Electrical Model
0.5 to 10F
0.5 to 100k
Electrode
0 to 500mV
Skin
1k
1F
Amplifier
Body
55 10k
10kΩ 10^10
1k
Ions to Electrons
1F
Frequency Response BSEA
Fo = 1 / 2 π RC
Fo = 0.159 / (1k) (1F)
= 159Hz
ECG and Blood Pressure Waves
120 mm Hg Vessel Maximum Pressure Head
Pressure signal has slower rise
30Hz BW, 25 harmonics
60 mm Hg Vessel Relaxation
R
1 mV p-p
TU
P
QS
ECG signal has faster rise
100Hz BW, 70 harmonics
Left Heart Relaxes
Left Heart Contracts
Actual ECG - Normal
Chart Speed: 25mm / sec 24 mm, 0.96 sec
10 mm = 1 mV
1mV
Cal
R
P
Q
T U
S
10 mm, 1 mVp-p
= BW
10mm =
0.4sec
BASELINE or dc DRIFT
Charging Time Constant of High Pass Filter and
Changing Electrode Half-Cell Potential
24 mm x 1 sec / 25mm = 0.96 sec / beat => 1 / 0.96 sec = 1.04 bps
62 bpm
at rest
ECG Irregular Tracings Due to Artifacts
60Hz Pick-Up
Muscle Shaking
Baseline dc Instability
Baseline or dc Drift
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Can Also Be Used As Precision Low-Level Data Acquisition System Front-End
“Mr. E. C. Gee”
ECG
Vin- INA
(Left Arm)
Demo
Board
About 1mVp-p
Heart
Vin+ INA
(Right Arm)
Meter
0
6
0
BPM
Single +5V Supply
VCM = (Vin+ + Vin-)/2
Common-mode volt
Used for RL drive
Flashing LED
(Right Leg)
John Brown, 12/5/2006
Beeping Speaker
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
ECG
BP
Vin- INA
(Left Arm)
Meter
Finger
0.15 – 2.5mVp-p
Heart
INA &
OPAs
Vout
Cardiotach
Circuit
0
BPM
Vin+ INA
(Right Arm)
Vout, Overall
Non-Inv Gain
With Respect
to Vin- INA
(Right Leg)
Common-mode Volt
= (Vin+ + Vin-)/2
(Used for RL Drive)
6
LED Speaker
0
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Uses 7 TI IC Types, 11 U’s Total
Resistor Divider for
Creating Differential
Voltages on Demo Board
Vin
+5.2V to +24V dc
TPS71550
LDO
SubReg
Ckt
ECG BP
RA
499k
U7
+5V
TLV3491
Auto
Power
Down Ckt
0.1uF
Cb7,8
U8
+4.8V dc, <1mA to 15mA
Vin- INA
(Left Arm)
RB
499k
Vdiff
Finger
0.15 – 2.5mVp-p
Heart
RC
499k
DIP-8
Socket
OPT101
U11
INA326 Vout
OPA335s
Vin+ INA
0.1uF
Cb1,2,3,4,5,6
(Right Arm)
Common-mode Volt
= (Vin+ + Vin-)/2
(Used for RL Drive)
0
U4, U5, U6
0.1uF
Cb9
OPA335
+2.5V
out
REF3025
U9
Uncommitted
Op Amp
LED Speaker
U10
6
BPM
OPA335s
TLC556
U1, U2, U3
Vout, Overall
Non-Inv Gain
With Respect
to Vin- INA
Meter
Cardiotach
Circuit
0
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
AC-coupled input stage
LPF
Normal-Mode dc
Removed
Normal-Mode dc
R
480R
0.48V dc + 2mV p-p
G = -480
-
G=5
VinTiny
Signal
1mVp in
-
+5V
+2.5V
Offset
INA326
HPF
Vin+
+
+5
V
OPA336,
335
+
4.9V max
4.8Vp-p
max
+2.5V ±2.4Vp
IA Ref Pin
0.1V min
0.48V dc + 1mV p-p
+2.5V Input
Vcm
GT = 2,400
+
Integrator in Feedback
Common = 0V, Vref = +2.5V
+2.5V
Offset
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Right leg drive circuit
R1
390k
Vin-
480mV max dc differential
(Left Arm)
R6 C1
40.2k100pF
Vin = Vin+ - Vin-
electrode potential
+2.5V dc
R4 1k
0.15 - 2.4mVp-p
Heart
40.2k
R7
R2
390k R51k
+2.5V dc
Vin+
(Right Arm)
+5V 0.1uF
2
U2
+2.5V dc
Common-mode Volt
= (Vin+ + Vin-)/2
(Used for RL Drive)
8Cb2
1
A1
+
3
4
OPA2335
Self-Zero
2
1
8
3
-
U1
INA326
+
C3
22pF
RG =R6+R7
Vcm +
47pF C4
390k
390k 7
R3 Vcm -
22pF
C2
A2
R8
20k
R9
+
(high inverting gain)
Right Leg Drive Amplifier
6
5
+2.5
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
CMOS +5V SINGLE SUPPLY, INA326/7 & OPA2335
GT=1k,2k,4k,6k
Stage2, Gain = 200 – 1,200
CLPFext xxxxuF
xxxxHz
Total Gain = 1,000 – 6,000
Low Pass Filters C7 0.0015uF
100Hz
Stage1, Gain = 5
(noise roll off)
C8
0.0047uF
35Hz
V IA Out
0.1uF
C9 0.01uF
17Hz
Total Gain, V/V RGext
Cb1
4.99k
x1k
R14
Centered +2.5V
+5V
1M
x2k R15 2.49k
U1
+5V
R18
2 7 x4k R16 1.24k
81
INA326,
A3
x6k R17 0.825k
= Vin x Rgain total
4 0.1uF
327 (shtdn)
6 Vout INA
3 +
Cb3
R/R I/O
High Pass Filters
ac
(dc restoration)
Self-Zero
Hold
5 4C5
R12
R13
R11
R10
316k
80.6k
3.01M
470pF
200k
Vout
0.15V to 4.8Vp-p out
0.05Hz
dc
ac
7
C6
+
A4
-
6
2Hz (quick restore)
+2.5V
Vdc
OPA2335 pedestal
Self-Zero ½ Vsup
U3
C high pass = 1uF
+2.5V dc
0.5Hz
5
Integrator (high pass filter):
Time Constant = RC. Fo=
0.05Hz diagnostic mode,
0.5Hz monitor mode, and
2Hz quick restore
ac-Coupled
20k
+5V supply
R19
20k
R20
Electrically Isolated
from Earth Gnd
Power Supply
Removes dc electrode offset
+Vs
-Vs
Analog Circuit Common
(isolated from earth ground)
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
DC restorer - removes electrode offset
Vout frequency response
U1 INA326
R1
Av
Vout INA
RG 80.4k
Ref
R2
R1 200k
+5
C2 1uF
C1 470pF
R1 +
+
f-3dB = 1/(2πR2C2)
R2 3M
f
0.05Hz
+
2.5v R4 20k
+5
+
U2 OPA365
+5
R3 20k
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Light
Flash
<30 to >240 Beats per Minute
Sound
Burst
6
0
BPM
0
BPM
Meter
Differentiator Pulse Peak
Front-End
ECG (Electro)
Or
BP (Optical)
See Detailed Circuits
Pulse Stretcher Burst Output
Meter
Differentiator
Peak-to-Peak
Detector
One Shot
Multivibrator
Flasher
Beep
oscillator
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
+5V Single Supply
Front-End
<30 to >240 Beats per Minute
Differentiator & Pos-Neg
Burst Output
Peak-to-Peak Detector One Shot
fosc = 1.44 / C15 (R26 + 2R27)  1kHz
+5V
Pulse Stretcher
0V
ECG
+2.5V
+2.5V
Person
TON = 1.1R25C13 = 0.1s
Common
Elec
Vout
C10
+5V
8
0.1F 2
0.1uF
Cb4
3
R19
R20
20k
+5V
20k
2
3
D2
6
IN4148
7
5
1
D1
R25
1M
R22
5
4 IN4148
OPA2335
2M
C11
3.01M
0.1F
4
2
0.1F
C13
½ TLC556
Dual Timer
6 Trig
7
Vdcpedestal = +2.5V = ½ Vsup
28k
R27
61.9k
0.01F
C15
5
U6
7
Clean
Triggering
6
5
R26
100msec
100k
OPA2335
U5
14
One-Shot
R24
0.1uF
Cb5
R23
10k
4
R21
U4
+5V
8 1
1
3
50% osc duty cycle
thi = 0.693 C15 (R26+R27), tlo = 0.693 C15 R26
0.1uF
Cb6
0.01F
C12
+5V
+5V
+5V
0V
0V
0.01F
C14
11
13
12
8
½ TLC556
Dual Timer
9
R28
R29
4.99k
249
C16
Oscillator
1F
10 Reset
1kHz
LED Speaker
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Battery, Power Sub-Regulator
and Auto Power Down Circuit
<1mA to 15mA On 
6A Off
Battery +6.5V to +9.25V
+5.9V to +8.65V
D3
0.6V Drop
Ext.
External
Supply
+5.1V to
+24V
+
Reverse
bat protect
Cb7
C17
0.1F
9V
Battery
-
4
Reg Output Power Down When C3
is Charged >90% of Vreg
4A Iq
TPS 71550
5V
Vreg
LDO Reg
SOT323-5
SC70
U7 2
5
Cb8
C18
0.47F
i
+5V
10M +5V
+4.5V
R30
e
0A
+4.8V
1A U8
1M
R31
4
-
R33
1k
C19
+4.5V
dc
Common, Isolated or Ground
TLV 3491
Comp
sot23-5
100F
+
3
4.75M
C3
R32
Mom. close SW to Start Timer
40 minutes to Auto Turn-Off
1.2A
+1mA to
Iq
5
+15mA
2
1
Load
1M
R34
90% of 5V
Threshold
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
“Pin-Plug and Play” features
•
Wires to pin-sockets, no soldering, plus plug selectable gain & BW
•
Self contained ICs, resistors, capacitors, LED, speaker, switches
•
Battery operated (+9V included) or external supply up to 24V max
with auto-sleep
•
Adjustable gain & BW (Separate LPF & HPF), differential or singleended inputs, ac or dc coupled
•
Breadboard area for additional circuits
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board – top side
Can Hold Right Side of Board Against Table to Steady Skin-Electrode Contact
Speaker On
Left Thumb
G = 1kV/V
OPT Not Used
In This Example
Right Thumb
Right Finger
Underneath
0.05Hz to 35Hz BW
Plugged Into
ac-Coupled
Position
Forward, Out put Swing Up From
Mid +2.5Vdc Towards +5V
ac-coupled
ECG Waveform Appear at Vout
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board – top side
Gain Control, Selected By Changing Shorting Bar Position
Input Pins
LA
Input
LED
40
minute
Gain
x1k,2k,4k,6k Timer
Start
Ext
Vsup
Ext
Off/On
Switch
Speaker
ac
dc
RA
Input
RL
back
LPF
17,35,100Hz
HPF
Ext
dc,0.05,0.5,2Hz
Vout
+5V
Com
Vin+, Vin-, and Vin common-mode (RL on back)
Digital Burst Out
Independent Op Amp
Burst
Test Point
U9 with Pin Socketsac Peak-to-Peak Start Timer
Comparator
Oscillator
Detector U4, U5
Push
LED
U8 TLV3491
Left Arm Pad, +2.5V REF3025
U6
4 Op Amps
Button
U10
with
Test
Vin- of IA
TLC556
Point
8-pin DIP Socket
U11 with Pin Sockets
½ Vsup
test pt
IA Out
test pt
External Pwr Supply Input
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board – top side
Off/On
Switch
Vout
OPA U2
CM
ac
dc
Sel
LPF
Gain
x1k,2k,4k, 17,35,100Hz,
Ext
6k,Ext
HPF
0.05,0.5,
Breadboard
2Hz
Area
Right Arm Pad, Vcm, +, -, or 3 R Div Can Convert
Instrumentation U1
OPA U3 2nd +5V LDO U7
Vin+ of IA
Com Select Single-ended to Diff Amplifier 1st Stage Gain Stage Gain TPS71550
Speaker
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board – back side
This Demo Board Supports Many Applications
Brief Instructions
Easy-to-Use Pin
Sockets (No Soldering)
Speaker
+9V Battery
Breadboard
Area
Left Arm Pad,
Vcm from IA, Vcm, +Vcm,
Com
Low-Level DAS / ECG Cardiotachometer
Demo Board - Standing
Gently Hold Electrode Pad Areas (relax fingers), Standing can be ok. Sit Down if Possible
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Additional Applications
• Industrial pressure, temperature flow and humidity and
general sensor signal conditioning
• Medical diagnostic and biophysical monitoring
• Analytical and scientific instrumentation
• Communications sensor and signal amplification
• Automotive sensors
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Vref
Puffing
Pressure
Tube
Pressure Bridge Application
Quickly Puffing on Tube
ac-Coupled
Low-Level DAS / ECG Cardiotachometer
Demo Board – Puffing Pressure Bridge
Silicon Microstructurers Inc.
Milpitas, CA, Press Bridge
SSM5410-005-G-P
408-577-0100
Stage2,
Stage1, Gain = 5
Vref = +5V
Vbrg offset
= 43mVdc
2 (-)
R1
390k
Vin+2.5VCM
1
R6 C1
100pF
40.2k
5 (+)
3.3k
ΔVin 1.5mVP-P
0.15 – 2.4mVP-P
40.2k
R7
R2
390k R51k
Vin+
3,4
+2.5VCM
Spec is 100mV
diff out for 5psi
input: 0.75mVp
out for 0.0375
psi input
R4 1k
+5V
2
A1
+
U2 3
C3
22pF
+5V
7
INA326,
327 (shtdn)
6
R/R I/O
ac
Hold
+ Self-Zero
5 4C5
U1
R10
200k
dc
ac
7
470pF
+
A4
-
C6
47pF C4
390k
390k 7
R3 Vcm -
A2
R8
20k
R9
+
Common-mode Volt
= (Vin+ + Vin-)/2
(NOT USED)
2
1
8
3
Gain = 600
GT = 2000V/V
0.1uF
Cb1
Vcm +
8 1
4
OPA2335
Self-Zero
+2.5V
22pF
C2
6
+5V 1M
R18
81
A3
4 0.1uF
3 +
2
Vout INA
High Pass Filters
(dc restoration)
Cb3
R11
3..01M
0.05Hz
5
+2.5V
Vdc
OPA2335 pedestal
Self-Zero ½ Vsup
U3
6
Vout
= Vin x Rgain total
2.5VDC ± 1.5Vp
1.0 to 4.0V
20k
+5V supply
R19
20k
R20
ac-Coupled
Removes 43mVdc brg offset
+2.5V dc
5
Power Supply
(high inverting gain)
It’s possible to omit A1, depending on resistances.
+Vs
-Vs
Analog Circuit Common
(isolated from earth ground)
Low-Level DAS / ECG Cardiotachometer
Demo Board – Puffing Pressure Bridge
+5V Excitation Directly
From Sub Regulated
Supply
Pressure Bridge
NOTE – Same Phase
- Bridge (2) Out => Vin+ INA
+ Bridge (5) Out => Vin- INA
Makes Vout Have Same
Phase as Vin diff That is
Vout 2nd Stage Increases
When Vin- INA Increases
With Respect to Vin+ INA
VinINA
+5V
Gtotal = 2kV/V
2Hz to
Vin+
INA
17Hz BW
Plugged Into
ac-Coupled
Position
5mmHg, 0.0375psi Change
When Puffing
ac-Coupled
Puffing Pressure
Input
Mechanical
Pressure Gage
Same Phase
Low-Level DAS / ECG Cardiotachometer
Demo Board – Puffing Pressure Bridge
0.2 second per puff
300 puffs per minute
SIGNAL
1.5Vp-p ac
+2.5V
Offset
Scope
Trace
Puffs
0.2 second
0V
+4V
2nd Timer
100ms, 1kHz
Burst Osc Out
0V
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
Squeezing
Vref
Tube
Circuit Uses OPA336s
Instead of OPA335s
Pressure Bridge Application
Slowly Squeezing on Tube
dc-Coupled
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
dc-coupled
dc bridge offset (Normal-Mode voltage) is
not removed
Vout
ac + dc
+4.9V max swing
Bridge offset will shift output
voltage up or down
Output
Signal
+2.5V mid scale
0.1V min swing
time
In single supply circuits, a mid-scale offset is used
with the amplifiers to assure linear operation.
Low-Level DAS / ECG Cardiotachometer
Demo Board – Squeezing Pressure Bridge
Silicon Microstructurers Inc.
Milpitas, CA, Press Bridge
SSM5410-005-G-P
408-577-0100
Vref = +5V
Vbrg offset
= 43mVdc
2 (-)
R1
390k
Vin-
R4 1k
+2.5VCM
1
R6 C1
100pF
40.2k
5 (+)
3.3k
RG =
4.21k
[RA ║(R6+R7)]
3,4
R7
R2
390k
Vin+
+2.5VCM
Spec is 100mV
diff out for 5psi
input: 0.75mVp
out for 0.0375
psi input
40.2k RA
R51k
+5V
2
A1
+
U2 3
22pF
C2
2
1
8
3
C3
22pF
INA326
R3 Vcm -
+
dc
6
+2.5V dc
5
Vout INA
High Pass Filters
(dc restoration)
ac
+
A4
-
7
Vout
= Vin x Rgain total
Cb3
ac
Hold
4
R11
C5
3..01M
470pF
0.05Hz
R8
20k
R9
A2
5
R10
200k
47pF C4
390k 7
6
C6
390k
+5V 1M
R18
81
A3
4 0.1uF
3 +
2
-
+
GT= 100V/V
G2= -1V/V
+5V
7
U1
Vcm +
8 1
4
OPA2336
not used
+2.5V
G1= 100V/V
G= 2(R10/RG)
5
+2.5V
U3
6
20k
+5V supply
R19
20k
R20
OPA2336
not used
dc-coupled
amplifies 43mVdc
bridge offset
Power Supply
+Vs
-Vs
Analog Circuit Common
(isolated from earth ground)
Low-Level DAS / ECG Cardiotachometer
Demo Board – Squeezing Pressure Bridge
#2, +2.5V Excitation
Buffered Through Op amp
Or
#1, +5V Excitation Directly
From Sub Regulated
Supply
NOTE – Opposite Phase
+ Bridge (5) Out => Vin+ INA
- Bridge (2) Out => Vin- INA
Makes Vout Have Opposite
Phase as Vin diff That is
Vout 2nd Stage Decreases
When Vin+ INA Increases
With Respect to Vin- INA
VinINA
Gtotal =
100V/V dc
+2.5V
+5V
17Hz BW
Vin+
INA
INA326
RG =
4.02k
OPA336
RF = 1M
Circuit Uses
OPA336s
Instead of
OPA335s for
Op Amps
Plugged Into
dc-Coupled
Position
dc-Coupled
Pressure Bridge
Pressure Tubing
T-Connection
Slowly Squeezing
Tube
Opposite
Phase
Low-Level DAS / ECG Cardiotachometer
Demo Board – Squeezing Pressure Bridge
Scope
Trace
#1 +5V on Bridge
0.99V
SIGNAL, with +5V Bridge Excitation
0.99V out  G=100 = 9.9mV in => 0.255psi bridge
#2 +2.5V on Bridge
0.51V
Half signal
amplitude,
due to half
excitation 0V
voltage
SIGNAL, with +2.5V Bridge Excitation
0.51V out  G=100 = 5.1mV in => 0.495psi bridge
5 seconds
Vdc offset + Vac sig
43mV
+ 0.99V
2nd Timer
100ms, 1kHz
Burst Osc Out
Slow Squeeze
Pulse
Triggered P-P Detector
+4V
0V
A Precision Low-Level DAS/ECG Cardiotachometer
Demo Board - Optical Relative Blood Pressure Monitor
Optical Finger Plethysmograph
Records Volume Changes Due to Blood Flow
BP is Measure of Heart as
a Mechanical Pump
+5V Single Supply
Stage1, Gain = 5
+2.5V dc
22pF
499k
VinBP
+2.5V
+2.5V
Mech
Finger
390k
Vsig
40k
+Vcc
1k
100pF
Photodiode
499k
Light Heart
Source
Lamp or
LED
40k
+2.5V dc
390k
Vin+
499k
+Vcc
3
2
1
8
3
+2.5V dc
Vishay/Telefunken BPW34, 7.5mm2 Area
Hamamatsu S1227-BR, S2387-16R, 6.49mm2 Area
TI OPT101, Just PD, 5.2mm2 Area
INA326,
R/R I/O
Self-Zero
+
22pF
7
+5V
8 1
A1
+
4
6
4
5
200k
470pF
+
A4
-
6
5
47pF
20k
390k
Photodiode Examples
-
1k
-Vcc
2
+5V
7
-Vcc
390k 7
A2
+
6
5 +2.5V dc
(high inverting gain)
Right Leg Drive Amplifier
It’s possible to omit A1, depending on resistances.
A Precision Low-Level DAS/ECG Cardiotachometer
Demo Board - Optical Relative Blood Pressure Monitor
ac-Coupled
Photodiode Inside OPT101 (Can Use Separate Photodiode)
Gt=6kV/V
2Hz
17Hz
acCoupled
Differential Input Voltage
OPT101 Photodiode Connected to 3-R Divider
to Create Differential Input Voltage
A Precision Low-Level DAS/ECG Cardiotachometer
Demo Board - Optical Relative Blood Pressure Monitor
0.94 second per beat
64 beats per minute
SIGNAL
0.7Vp-p ac
Optical
1st Timer
Trigger
Input Scope
+2.5V
Offset
0.94 second
0V
Trace
1st Timer
Output
2nd Timer
100ms,
1kHz Burst
Osc Out
0V
0V
Missing Sound Burst
Did Not Trigger P-P Detector or Maybe
DIGITAL O-SCOPE Abnormality
A Precision Low-Level DAS/ECG
Cardiotachometer Demo Board
The low-level DAS/ECG demo board:
• Provides a useful platform for low signal level circuit
development.
• Is useful as a portable, self-contained cardiotachometer.
• Demonstrates the ability of very small amplitude signals to be
amplified in the presence of large common-mode signals.
• Provides either AC or DC coupling, but very large gain may be
difficult to use for DC due to offset.
• Accommodates a variety of medical and non-medical sensors
and applications.