ECG jutiklio modulis su IC AD8232, širdies ritmo stebėjimui ir analizeiKodas ABMJ001
- Svoris bruto 7.00g
Eshop kaina: 7,50 €
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A tool for ECG and other bioelectric measurement applications integrated signal conditioning modules. The device is designed for use in the case of having a movement or noise generated by a remote electrode placement extraction, amplification, and filtering the weak bioelectrical signals. This design makes the ultra-low power ADC (ADC) or embedded microcontroller can easily capture the output signal.
AD8232 bipolar high-pass filter to eliminate motion artifacts and electrode half-cell potential. The filter structure with closely coupled instrumentation amplifier can achieve single-stage high gain and high-pass filter, thereby saving space and cost.
Using a non-use constraints AD8232 operational amplifier to create a three-pole low-pass filter to eliminate the additional noise. Users can select the filter cutoff frequency to meet the needs of all different types of applications.
In order to improve the system line frequency interference and other adverse CMRR performance, AD8232 a built amplifier for right-hand drive (RLD), etc. Application Driven leads.
AD8232 contains a quick recovery, can reduce the high-pass filter originally established long long tail phenomenon. If the amplifier rail voltage signal mutation occurs (such as lead from the case), AD8232 will automatically adjust to a higher filter cutoff state. This feature allows the AD8232 can achieve rapid recovery, and thus after the electrode lead is connected to the measurement object can be made effective as soon as the measured value.
Guarantee the performance of the rated temperature range of 0
Fitness and exercise heart rate monitoring
Remote health care
Biological signal acquisition
Pin No. Name Description
1 HPDRIVE Qualcomm drive output. HPDRIVE should be connected to the first high-pass filter capacitor.
AD8232 drive the pin to keep HPSENSE with the reference voltage at the same level.
2 + IN instrumentation amplifier positive input. + IN is usually connected to the left arm (LA) electrode.
3 -IN negative input of the instrumentation amplifier. -IN Is usually connected to the right arm (RA) electrodes.
4 RLDFB right leg drive feedback input. RLDFB is the feedback pin right leg drive circuit.
5 RLD right leg drive output. Should drive electrode (usually the right leg) to connect the pin to the RLD.
6 SW fast recovery switch pin. The pin should be connected to the output of the second high-pass filter.
7 OPAMP + op-amp input.
8 REFOUT reference buffer output. Instrumentation amplifier output reference to this potential. REFOUT should be used as a circuit at any point in the reference signal requires a virtual ground.
9 OPAMP- inverting input terminal of the operational amplifier.
10 OUT of the operational amplifier output. This output providing a fully conditioned heart rate signal.
OUT can be connected to the input of the ADC.
11 LOD- lead off the comparator output. DC lead-off detection mode, when disconnected from the -IN electrode, LOD- in a high state, and vice versa in a low state. In exchange lead-off detection mode, LOD- always in a low state.
Lead-off of the comparator output. DC lead-off detection mode, when the + IN electrode is disconnected, LOD + in the high state, And vice versa in the low state. In exchange leads off detection mode, when -IN or + IN electrode is disconnected, LOD + in the high state, Is at the low state when the two electrodes are connected.
12 LOD +
13 SDN shutdown control input. The SDN driven low, you can enter a low-power shutdown mode. 14 AC / DC lead-off mode control input. For DC lead-off mode, should AC / DC pin is driven low. For AC lead-off mode, should AC / DC pin is driven high.
15 FR quickly regain control input. The FR driven high enables fast recovery mode; otherwise, it should be driven low.
16 GND Power Ground.
17 + VS supply pin.
18 REFIN reference buffer input. REFIN (high-impedance input pins) can be used to set the reference voltage buffer level.
19 IAOUT instrumentation amplifier output pin.
Qualcomm detection input 20 HPSENSE instrumentation amplifier.
HPSENSE should be connected to the R and C to set the blocking circuit node transition frequency.
EP exposed pad. Exposed pad should be connected to GND or unconnected.