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ـﻟا زﺎﻬﺟ Meter I OXC Pulse: pulseoximeter 1 رﺎﻬﻇﻹا ﺔﺷﺎﺷ LCD 2

This document summarizes the features and specifications of a pulse oximeter device. A pulse oximeter non-invasively measures oxygen saturation levels and pulse rates. It displays current readings and waveforms on an LCD screen and sounds alarms if the oxygen or pulse rate fall outside normal ranges. Key features include oxygen saturation and pulse rate displays, audible and visual alarms, a battery level indicator, and a locked keypad to ensure proper operation. Specifications include measurement ranges, resolution, accuracy, alarm types and modes, display details, and environmental operation factors.

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Salim Alone
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224 views11 pages

ـﻟا زﺎﻬﺟ Meter I OXC Pulse: pulseoximeter 1 رﺎﻬﻇﻹا ﺔﺷﺎﺷ LCD 2

This document summarizes the features and specifications of a pulse oximeter device. A pulse oximeter non-invasively measures oxygen saturation levels and pulse rates. It displays current readings and waveforms on an LCD screen and sounds alarms if the oxygen or pulse rate fall outside normal ranges. Key features include oxygen saturation and pulse rate displays, audible and visual alarms, a battery level indicator, and a locked keypad to ensure proper operation. Specifications include measurement ranges, resolution, accuracy, alarm types and modes, display details, and environmental operation factors.

Uploaded by

Salim Alone
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as PDF, TXT or read online on Scribd
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‫ﺑﺴﻢ ﷲ اﻟﺮﲪﻦ اﻟﺮﺣﲓ‬

‫ﺟﻬﺎز اﻟـ ‪PULSE OXCIMETER‬‬


‫ﺟﻬﺎز اﻟـ ‪ :OXCIMETER‬هﻮ ﺟﻬﺎز إﻟﻜﺘﺮوﻧﻲ ﻃﺒﻲ دﻗﻴﻖ ﻳﻘﻮم ﺑﻘﻴﺎس ﻣﻌﺪل اﻷوآﺴﺠﻴﻦ أو ﻣﺮاﻗﺒﺔ اﻷآﺴﺠﻴﻦ‬
‫ﻋﻨﺪ اﻟﻤﺮﻳﺾ ﺑﻮاﺳﻄﺔ ﺗﻘﻴﻴﻢ ﻣﺴﺘﻮى اﻟـ ‪ O2‬وﻣﻌﺪل ﺿﺮﺑﺎت اﻟﻘﻠﺐ ‪،‬ﺣﻴﺚ ﻳﻌﻄﻲ اﻟﺠﻬﺎز ﺻﻮت‪ sound‬أو ﺗﺤﺬﻳﺮ‬
‫‪ alarm‬ﻓﻲ ﺣﺎل هﺒﻮط اﻟـ ‪ O2‬وﺳﺮﻋﺔ ﺿﺮﺑﺎت اﻟﻘﻠﺐ ﻋﻦ ﻣﺴﺘﻮى ﻣﺤﺪد ‪،‬وهﺬا اﻟﻨﻮع ﻣﻦ أﺟﻬﺰة ﻣﺮاﻗﺒﺔ اﻟـ ‪O2‬‬
‫ﻣﻔﻴﺪة ﺟﺪًا وﺧﺎﺻ ًﺔ ﻋﻨﺪ اﻟﻤﻮاﻟﻴﺪ اﻟﺠﺪد)اﻷﻃﻔﺎل اﻟﺨ ّﺪج( ‪ newborn infants‬وﻋﻨﺪ ﻋﻤﻠﻴﺎت اﻟﺠﺮاﺣﻴﺔ ‪surgery‬‬
‫ﻓﻲ ﻏﺮﻓﺔ اﻟﻌﻤﻠﻴﺎت‪.‬إن اﻟﺘﺼﻤﻴﻢ اﻟﺒﺼﺮي)اﻟﻀﻮﺋﻲ( اﻟﻐﻴﺮ ﻣﺘﺪاﺧﻞ ‪ non-invasive‬ﻟـ ‪pulse oximeter‬‬
‫ﻳﺴﺘﺨﺪم اﻟﻤﺘﺤﻜﻢ )‪ microcontroller (MCU‬رﻗﻢ ‪ MSP430FG437‬اﻟﺬي ﻳﺤﻮي ﻗﻄﺐ ﻣﺪﻣﺞ‬
‫ﺧﺎرﺟﻲ ‪ peripheral probe combined‬ﻹﻇﻬﺎر إﺷﺒﺎع اﻟـ ‪ O2‬وﻣﻌﺪل ﻧﺒﻀﺎت اﻟﻘﻠﺐ ﻋﻠﻰ ﺷﺎﺷﺔ ‪LCD‬‬
‫زﺟﺎﺟﻴﺔ آﻤﺎ ﺑﺎﻟﺸﻜﻞ)‪ .(١‬وﻳﻤﻜﻦ ﻟﻬﺬا اﻟﺠﻬﺎز أن ﻳﻈﻬﺮ‬

‫اﻟﻘﻴﻤﺔ ‪ value‬وﺷﻜﻞ اﻟﻤﻮﺟﺔ ‪ waveform‬ﺑﺸﻜﻞ ﻣﺘﺰاﻣﻦ ‪synchronously‬‬

‫ﺷﻜﻞ)‪ (٢‬أو ﻳﻤﻜﻦ أن ﻳﻌﺮض اﻟﻘﻴﻤﺔ ﻓﻘﻂ ﺑﻮاﺳﻄﺔ زر اﻹﺧﺘﻴﺎر ﻣﻦ‬


‫ﺷﺎﺷﺔ ‪LCD‬‬
‫اﻟﻘﺎﺋﻤﺔ آﻤﺎ ﺑﺎﻟﺸﻜﻞ )‪.(٣‬‬

‫‪CLOCK‬‬

‫‪1 pulseoximeter‬‬ ‫ﺷﺎﺷﺔ اﻹﻇﻬﺎر ‪2 LCD‬‬

‫ﻣﻦ اﻟﺸﻜﻞ )‪ (٢‬ﻧﻼﺣﻆ ﻇﻬﻮر اﻟﻘﻴﻤﺔ اﻟﺮﻗﻤﻴﺔ ﻟـ‪ (Percent Oxygen saturation )SPO2‬و ‪Pulse )PR‬‬
‫‪ (Rate‬وآﺬﻟﻚ ﻇﻬﻮر اﻹﺷﺎرة اﻟﺘﺸﺎﺑﻬﻴﺔ اﻟﻤﺘﺰاﻣﻨﺔ ﻣﻊ اﻟﻘﻴﻢ اﻟﺮﻗﻤﻴﺔ‪ .‬وﺗﺤﻮي هﺬﻩ اﻟﺸﺎﺷﺔ ﻋﻠﻰ ‪:‬‬

‫‪ .١‬ﺟﺮس إﻧﺬار ﺑﺼﺮي وﺳﻤﻌﻲ ‪: Visual and Audio Alarm‬‬

‫ﻼ‬
‫ﻳﻌﻄﻲ إﺷﺎرة ﺗﻨﺒﻴﻪ ﺻﻮﺗﻴﺔ وﻣﺮﺋﻴﺔ ﻋﻨﺪ ﺣﺪوث ﺧﻄﺮ ﻣﺎ ﻣﺜ ً‬

‫)اﻧﺨﻔﺎض ﻧﺴﺒﺔ اﻟـ‪ O2‬أو اﻧﺨﻔﺎض ﻋﺪد دﻗﺎت اﻟﻘﻠﺐ ﻋﻦ اﻟﻤﺴﺘﻮى‬

‫اﻟﻄﺒﻴﻌﻲ (‪.‬‬

‫‪ .٢‬ﻣﺆﺷﺮ اﻟﻄﺎﻗﺔ ﻟﻠﺠﻬﺎز ‪: Indicator of remaining power‬‬

‫ﻳﺤﺪد ﻣﺴﺘﻮى ﻃﺎﻗﺔ اﻟﺸﺤﻦ ﻟﻠﺠﺎز وﻳﻤﻜﻦ أن ﻳﻌﻄﻲ ﺗﻨﺒﻴﻪ ﻋﻨﺪ إﻧﺨﻔﺎض‬

‫اﻟـ ‪ power‬إﻟﻰ ﻗﻴﻢ ﻣﻨﺨﻔﻀﺔ ‪.‬‬


‫ﺷﺎﺷﺔ اﻹﺿﻬﺎر ‪3 LCD‬‬
‫‪ .٣‬ﻗﻔﻞ ﻟﻮﺣﺔ اﻟﻤﻔﺎﺗﻴﺢ ‪ :Lock of keyboard‬ﻓﻲ اﻟﺒﺪاﻳﺔ ﻳﺘﻢ‬

‫ﻣﻌﺎﻳﺮة اﻟﺠﻬﺎز ﻣﻦ ﻗِﺒﻞ اﻟﻄﺒﻴﺐ ﺛﻢ ﻳﻘﻔﻞ ﻟﻮﺣﺔ اﻟﻤﻔﺎﺗﻴﺢ ﻟﻀﻤﺎن اﺳﺘﻤﺮار اﻟﻌﻤﻞ ﺑﺸﻜﻞ ﺻﺤﻴﺢ ﻋﻦ ﻃﺮﻳﻖ هﺬا اﻟﺰر‪.‬‬

‫ﺻﻔﺤﺔ ‪ ١‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫ وهﻲ ﺗﺸﻴﺮ إﻟﻰ اﻟﻮﻗﺖ اﻟﺤﺎﻟﻲ اﻟﺬي ﻳﺘﻢ ﻓﻴﻪ اﻟﻘﻴﺎس وهﻲ ﺳﺎﻋﺔ رﻗﻤﻴﺔ ﺗﺤﺪد اﻟﻮﻗﺖ‬:CLOCK ‫ اﻟﺴﺎﻋﺔ‬.٤
. (Hours- Minutes-Seconds ) ‫ﺑﺪﻗﺔ‬
.‫ ﻓﻲ اﻟﺠﻬﺔ اﻟﻴﺴﺮى ﻣﻦ اﻟﺸﺎﺷﺔ‬.98% ‫ ﺗﻈﻬﺮ ﻗﻴﻤﺔ رﻗﻤﻴﺔ ﺗﻤﺜﻞ ﻧﺴﺒﺔ ﻣﺌﻮﻳﺔ ﻟﻸآﺴﺠﻴﻦ ﻓﻲ اﻟﺪم‬.٥
‫ﻓﻲ اﻟﺠﻬﺔ‬.156 bpm pulse rate of the heart ‫ ﺗﻈﻬﺮ ﻗﻴﻤﺔ رﻗﻤﻴﺔ أﺧﺮى ﺗﻤﺜﻞ ﻣﻌﺪل اﻟﻨﺒﺾ ﻟﻠﻘﻠﺐ‬.٦
.‫اﻟﻴﻤﻨﻰ اﻟﺸﺎﺷﺔ‬

: ‫ﻳﻈﻬﺮ اﻟﺠﺪول اﻟﺘﺎﻟﻲ ﻣﻮاﺻﻔﺎت هﺬا اﻟﺠﻬﺎز‬

Specifications ‫ﻣﻮاﺻﻔﺎت اﻟﺠﻬﺎز‬


SPO2 Alarm ‫اﻟﺘﻨﺒﻴﻪ‬ Display‫اﻹﻇﻬﺎر‬
Display
0%~100% Alarm SpO2%, probe off Size 55mm*27.5mm
range:
Resolution 1% Alarm mode audio & optical alarm Resolution 128*64
SpO2, pulse
Accuracy 2% (70-100%) Alarm switch: turn on or off alarm Displaying Waveform
column

Data SpO2%, PR

time, battery
Others
power

Specifications ‫ﺗﺎﺑﻊ ﻣﻮاﺻﻔﺎت اﻟﺠﻬﺎز‬


Operation Environment Pulse Rate
Operating temperature 5~40 Display range 0~254bpm
Relative humidity: ≤80% Measurement range 30~254 bpm
Atmosphere pressure 86kPa- 106kPa Resolution 1bpm
Power supply 4 AA Ni-MH batteries or AC-DC 6V Accuracy 2bpm or2%
Working time 24 hours continuously
Store and replay Store and replay more than 24 hours parameters of SpO2%, PR.
Trend Recall 24 hours trend graph of SpO2 and PR
(٤)‫ﺷﻜﻞ‬

heart-rate ‫ﻓﻲ هﺬا اﻟﺠﻬﺎز اﻟﺤﺴﺎس اﻟﻤﺴﺘﺨﺪم هﻮ اﻟﺤﺴﺎس ﻧﻔﺴﻪ اﻟﻤﺴﺘﺨﺪم ﻟﻜﺸﻒ ﻣﻌﺪل ﻧﺒﻀﺎت اﻟﻘﻠﺐ‬
‫ﻟﺘﺤﻘﻴﻖ ذﻟﻚ ﻳﺘﻢ وﺿﻊ اﻟﺤﺴﺎس ﻋﻠﻰ اﻟﺠﺴﻢ ﻣﻦ ﺧﻼ ل اﻟﻘﻄﺐ‬. ‫ ﻓﻲ اﻟﺪم‬O2‫ و آﺸﻒ ﻣﺴﺘﻮى اﻟـ‬detection
‫ ﻣﺜﻞ ﻃﺮف‬peripheral probe combined ‫اﻟﻤﺮﺟﻌﻲ اﻟﺨﺎرﺟﻲ‬

‫ أو ﻋﻠﻰ اﻷﻧﻒ‬ear lobe ‫ أو ﻋﻠﻰ ﺷﺤﻤﺔ اﻷذن‬finger tip ‫اﻷﺻﺒﻊ‬

:‫ آﻤﺎ ﻳﻈﻬﺮ اﻟﺸﻜﻞ اﻟﺘﺎﻟﻲ‬nose

‫ اﻷول ﻳﻌﻤﻞ ﻓﻲ ﻣﺠﺎل اﻟﻄﻴﻒ اﻟﻤﺮﺋﻲ‬Tow Leds ‫هﺬا اﻟﻌﻤﻞ ﻳﺘﻀﻤﻦ‬

.λ=660 nm ‫ ﻋﻨﺪ ﻃﻮل ﻣﻮﺟﻲ‬visible red spectrum‫اﻷﺣﻤﺮ‬


(٥)‫ﺷﻜﻞ‬
.λ=940 nm ‫ ﻋﻨﺪ ﻃﻮل ﻣﻮﺟﻲ‬infrared spectrum ‫واﻟﺜﺎﻧﻲ ﻳﻌﻤﻞ ﻓﻲ ﻣﺠﺎل ﻃﻴﻒ اﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء‬

‫ ﻓﻲ اﻟﺠﺴﻢ ﺗﺤﺪد ﺑﻮاﺳﻄﺔ ﻗﻴﺎس اﻟﺸﺪة أو اﻟﻜﺜﺎﻓﺔ اﻟﻀﻮﺋﻴﺔ ﻟﻜﻞ ﺗﺮدد ﺿﻮﺋﻲ ﺑﻌﺪ ﻣﺎ‬O2 ‫إن اﻟﻨﺴﺒﺔ اﻟﻤﺌﻮﻳﺔ ﻟﻠـ‬

  ١١ ‫ ﻣﻦ‬٢ ‫ﺻﻔﺤﺔ‬
 
‫أرﺳﻠﺖ ﻋﺒﺮ اﻟﺠﺴﻢ وﻣﻦ ﺛﻢ ﺣﺴﺎب اﻟﺸﺪة ﺑﻴﻦ آﻞ ﺣﺎﻟﺘﻴﻦ ﻣﺘﺘﺎﻟﻴﺘﻴﻦ‪.‬‬

‫ﻳﻈﻬﺮ اﻟﻤﺨﻄﻂ اﻟﺘﺎﻟﻲ ﺷﻜﻞ)‪ (٦‬اﻟﺘﻄﺒﻴﻖ ﺑﺎﺳﺘﺨﺪام رﻗﺎﻗﺔ واﺣﺪة ‪ single-chip‬ﻟﺠﻬﺎز ‪portable‬‬
‫‪ pulseoximeter‬اﻟﻤﺤﻤﻮل ﻣﺴﺘﺨﺪﻣﺎ ﻃﺎﻗﺔ ﻣﻨﺨﻔﻀﺔ ‪ ultra-low-power‬ﻟﻠﻤﺎﻳﻜﺮو ‪MSP430 MCU.‬‬
‫‪.‬وﺑﺴﺒﺐ اﻟﻤﺴﺘﻮى اﻟﻌﺎﻟﻲ ﻟﻠﺘﻜﺎﻣﻞ اﻟﺘﺸﺎﺑﻬﻲ ‪ analog integration‬ﻓﺈن اﻟﻤﻜﻮﻧﺎت اﻟﺨﺎرﺟﻴﺔ ‪ external components‬ﺗﺒﻘﻰ‬
‫ﻣﻨﺨﻔﻀﺔ ‪،‬ﻋﻼوة ﻋﻠﻰ ذﻟﻚ وﺑﺎﻟﻤﺤﺎﻓﻈﺔ ﻋﻠﻰ زﻣﻦ ﺻﻐﻴﺮ وﺗﻐﺬﻳﺔ ﻣﺘﻜﺮرة ﻟﻤﺼﺪري اﻟﻀﻮء) ‪ (Tow leds‬ﺗﻜﻮن‬
‫اﻟﻄﺎﻗﺔ اﻟﻤﺴﺘﻬﻠﻜﺔ ﻣﻨﺨﻔﻀﺔ‪.‬‬

‫‪6 MSP430 MCU‬‬

‫‪Apart from the MCU and four transistors, only passive components are needed for this design.‬‬

‫وﺑﻤﺎ أﻧﻪ ﻳﻮﺟﺪ ﻟﺪﻳﻨﺎ ‪ Tow leds‬ﻓﻜﻞ ﻣﻨﻬﺎ ﺗﺤﺘﺎج إﻟﻰ دارة ﻗﻴﺎدة ﻟﺘﻘﻮد ﻋﻤﻠﻬﺎ ﺣﻴﺚ ﻳﻌﻤﻞ اﻟﻠﻴﺪات ﻋﻠﻰ ﺗﺤﻮﻳﻞ‬
‫اﻹﺷﺎرة اﻟﻜﻬﺮﺑﺎﺋﻴﺔ إﻟﻰ إﺷﺎرة ﺿﻮﺋﻴﺔ‪ .‬آﻤﺎ ﺑﺎﻟﺸﻜﻞ اﻟﺘﺎﻟﻲ‪:‬‬

‫‪7 .LED drive circuit‬‬


‫ﺻﻔﺤﺔ ‪ ٣‬ﻣﻦ ‪  ١١‬‬
‫‪ ‬‬
‫اﻟﺪارة اﻟﻌﻤﻠﻴﺔ ﻟﻠـ‪٨ pulse oxymeter ‬‬

‫ﻣﺒﺪأ اﻟﻘﻴﺎس‪: Measurement principle :‬‬

‫إن ﻣﺒﺪأ ﻋﻤﻞ اﻟﻘﻴﺎس ﻟﻠـ ‪ oximeter‬هﻮ آﻤﺎ ﻳﻠﻲ‪:‬إن اﻟﻮﺻﻒ اﻟﻌﻤﻠﻲ ﻟﻤﻌﺎﻟﺠﺔ اﻟﺒﻴﺎﻧﺎت اﻷﺧﺬ اﻟﻤﺴﺘﻘﺮ‬
‫‪ established taking‬اﻟﺬي ﻳﺴﺘﺨﺪم ﻗﺎﻧﻮن ‪ Lambert Beer‬اﻟﺬي ﻳﻌﺘﻤﺪ ﻋﻠﻰ اﻟﻤﻘﺎرﻧﺔ ﺑﻴﻦ ﺧﺼﺎﺋﺺ‬
‫اﻻﻣﺘﺼﺎص اﻟﻄﻴﻔﻲ ﻟﻠﻬﻴﻤﻮﺟﻠﻮﺑﻴﻦ)‪ hemoglobin(Hb‬ﻓﻲ اﻟﺪم واﻷوآﺴﺠﻴﻦ ﻓﻲ اﻟﻬﻴﻤﻮﺟﻠﻮﺑﻴﻦ‬
‫)‪ ) Oxyhemoglobin (O2 Hb‬آﺮﻳﺎت اﻟﺪم اﻟﺤﻤﺮاء هﻲ اﻟﺘﻲ ﺗﺤﻤﻞ اﻟـ‪ O2‬وأن آﺮﻳﺎت اﻟﺪم ﺗﺤﻮي اﻟـ‪(Hb‬‬
‫ﻓﻲ اﻟﻀﻮء اﻟﻤﺮﺋﻲ وﻣﻨﺎﻃﻖ اﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء ﺗﻘﺮﻳﺒًﺎ ‪،‬ﺣﻴﺚ أن ﻣﺒﺪأ ﻋﻤﻞ هﺬﻩ اﻵﻟﺔ هﻮ اﻟﺘﻔﺘﻴﺶ أو اﻟﺒﺤﺚ ﻋﻦ‬
‫اﻷآﺴﺠﻴﻦ ﻓﻲ اﻟﻬﻴﻤﻮﺟﻠﻮﺑﻴﻦ ‪ Oxyhemoglobin‬ﺑﻄﺮﻳﻘﺔ آﻬﺮ وﺿﻮﺋﻴﺔ ﻋﻦ ﻃﺮﻳﻖ ﺣﺴﺎﺳﻴﻦ ﺿﻮﺋﻴﻴﻦ ‪LEDs‬‬
‫ﺑﺎﻟﻤﻄﺎﺑﻘﺔ ﻣﻊ ﺳﻌﺔ أو ﻣﻄﺎل اﻟﻨﺒﻀﺔ اﻟﻤﻤﺴﻮﺣﺔ ‪ Scanning‬أو اﻟﻤﻘﺮوءة وﻣﻦ ﺛﻢ ﺗﺴﺠﻴﻠﻬﺎ ﺣﻴﺚ ﻓﺈن اﻟﺸﻌﺎﻋﻴﻦ‬
‫اﻟﻀﻮﺋﻴﻴﻦ اﻟﺼﺎدران ﻋﻦ اﻟﻠﻴﺪﻳﻦ ﻳﻜﻮن ﻟﻬﻤﺎ ﻃﻮل ﻣﻮﺟﻲ ﻣﺨﺘﻠﻒ) ‪ 660nm‬ﻟﻠﻀﻮء اﻟﻤﺮﺋﻲ و ‪ 940nm‬ﻗﺮﻳﺐ‬
‫ﻣﻦ اﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء( ﻳﺠﺐ أن ﺗﻜﻮن ﻣﺮآﺰة ﻋﻠﻰ اﻟﺠﺴﻢ ﻋﻨﺪ رأس اﻟﻈﻔﺮ‬

‫ﺧﻼل ﻣﺸﺒﻚ ﻣﻨﻈﻮري ‪ perspective clamp‬ﻟﺤﺴﺎس ‪finger-type sensor‬‬

‫آﻤﺎ ﻳﻈﻬﺮ ﺑﺎﻟﺸﻜﻞ)‪ (٨‬ﺣﻴﺚ ﻳﺘﻢ ﺗﺴﻠﻴﻂ هﺬﻩ اﻷﺷﻌﺔ ﻣﻦ اﻟﻠﻴﺪﻳﻦ)& ‪RED LED‬‬

‫‪ ( INFRARED‬ﻋﻠﻰ رأس اﻷﺻﺒﻊ وﻳﺘﻢ إﺳﺘﻘﺒﺎل هﺬﻩ اﻷﺷﻌﺔ ﻣﻦ ﻗﺒﻞ ﻣﺴﺘﻘﺒﻠﻴﻦ‬


‫اﻟﺸﻜﻞ )‪(٩‬‬

‫أﻳﻀًﺎ ﻣﻦ ﻧﻔﺲ اﻟﻨﻮع ﻣﻦ اﻟﺠﻬﺔ اﻷﺧﺮى ﻟﻸﺻﺒﻊ وﻣﻦ ﺛﻢ ﻗﻴﺎس اﻹﺷﺎرة اﻟﺘﻲ ﻳﻤﻜﻦ اﻟﺤﺼﻮل ﻋﻠﻴﻬﺎ ﻣﻦ ﻗﺒﻞ‬
‫اﻟﺤﺴﺎﺳﻴﺔ اﻟﻀﻮﺋﻴﺔ اﻟﺪﻗﻴﻘﺔ ﻟﻠﻤﺴﺘﻘﺒﻠﻴﻦ أي أن اﻟﻤﻌﻠﻮﻣﺎت اﻟﺘﻲ ﺣﺼﻠﻨﺎ ﻋﻠﻴﻬﺎ ﺳﻮف ﻳﺘﻢ إﻇﻬﺎرهﺎ ﻋﻠﻰ ﺷﺎﺷﺎت‬
‫إﻇﻬﺎر ﺑﻌﺪ إدﺧﺎﻟﻬﺎ إﻟﻰ دارا إﻟﻜﺘﺮوﻧﻴﺔ وﻣﻌﺎﻟﺠﺎت دﻗﻴﻘﺔ ﺣﻴﺚ أن هﺬا اﻟﺠﻬﺎز ﻳﺴﺘﺨﺪم اﻟﻤﻌﺎﻟﺞ ‪MSP430FG437‬‬

‫ﺻﻔﺤﺔ ‪ ٤‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫آﻴﻔﻴﺔ اﻟﺤﺼﻮل ﻋﻠﻰ اﻹﺷﺎرة ‪: Signal Acquisition‬‬

‫ﻳﻈﻬﺮ ﺑﺎﻟﺸﻜﻞ)‪ (10‬دارة ﺗﻀﺨﻴﻢ ﻟﻤﻘﺎوﻣﺔ اﻟﺘﻐﺬﻳﺔ اﻟﻌﻜﺴﻴﺔ )‪(R=100MΩ‬‬

‫وهﻲ دارة أآﺜﺮ ﺷﻴﻮﻋًﺎ واﺳﺘﺨﺪاﻣﺎ ﻓﻲ اﻟﻨﻈﺎم اﻟﺒﻴﻮﻟﻮﺟﻲ )اﻟﺤﻴﻮي( –اﻟﻤﺠﺎل اﻟﻄﺒﻲ‬

‫ﺣﻴﺚ ﺗﺴﺘﺨﺪم ﺑﻨﻴﺔ اﻟﻤﻀﺨﻢ اﻟﻌﺎآﺲ ‪(OPA353) inverting configuration‬‬

‫ﺣﻴﺚ أن اﻟﻀﺆ اﻟﻮارد ﻋﻠﻰ ااـ ‪ Photodiode‬ﻳﺤﺮﺿﻪ ﻋﻠﻰ ﺗﻮﻟﻴﺪ ﺗﻴﺎر آﻬﺮ ﺿﻮﺋﻲ‬
‫اﻟﺸﻜﻞ )‪(١٠‬‬
‫ﺻﻐﻴﺮ ‪ ІФ‬ﺣﻴﺚ ﻳﺘﺠﻪ هﺬا اﻟﺘﻴﺎر ﺑﺎﺗﺠﺎﻩ ﻧﻘﻄﺔ اﻟﺠﻤﻊ ‪ summing junction‬ﻟﻠﻤﻀﺨﻢ وﻋﺒﺮ ﻣﻘﺎوﻣﺔ اﻟﺘﻐﺬﻳﺔ‬
‫‪  ІФ‬‬ ‫اﻟﻌﻜﺴﻴﺔ ‪R‬‬

‫اﻟﻤﻤﻴﺰة اﻟﻨﻈﺮﻳﺔ‬

‫اﻟﻤﻤﻴﺰة اﻟﻌﻤﻠﻴﺔ‬
‫‪  RL‬‬

‫‪  -V +‬‬
‫‪ Ф‬‬

‫ﺟـ ‪.‬اﻟﻤﻤﻴﺰة اﻟﻌﻤﻠﻴﺔ واﻟﻨﻈﺮﻳﺔ ﻟﻠﺜﻨﺎﺋﻲ اﻟﻀﻮﺋﻲ ‪ ‬‬ ‫ب‪ .‬رﻣﺰ اﻟﺜﻨﺎﺋﻲ اﻟﻀﻮﺋﻲ‬ ‫أ‪.‬اﻟﺪارة اﻟﻌﻤﻠﻴﺔ‬
‫اﻟﺸﻜﻞ)‪(١١‬‬

‫ﺣﻴﺚ ﺗﻌﻄﻰ ﻣﻘﺎوﻣﺔ اﻟﺘﻐﺬﻳﺔ اﻟﻌﻜﺴﻴﺔ ﺑﻘﻴﻤﺔ آﺒﻴﺮة ﺟﺪًا ‪.‬وهﺬﻩ اﻟﺪارة ﺣﺴﺎﺳﺔ ﺟﺪا ً ﻟﻠﺘﻐﻴﺮات اﻟﻄﻔﻴﻔﺔ ﻓﻲ اﻟﺸﺪة‬
‫ﻼ إذا آﺎﻧﺖ إﺷﺎرة اﻟﺪﺧﻞ اﻟﻤﻤﺜﻠﺔ ﺑﺎﻻﺳﺘﻄﺎﻋﺔ اﻟﻀﻮﺋﻴﺔ ‪ Ф=0.001µv‬ﻓﺈﻧﻪ ﻳﻤﻜﻦ‬ ‫اﻟﻀﻮﺋﻴﺔ ‪ light intensity‬ﻣﺜ ً‬
‫أن ﻳﺤﺪث ﺗﺄرﺟﺢ أﻋﻈﻤﻲ ﻹﺷﺎرة اﻟﺨﺮج ‪) full-swing‬أي أﻧﺔ ﺑﺰﻳﺎدة ﺷﺪة اﻹﺿﺎءة اﻟﻮاردة ﻋﻠﻰ اﻟـ ‪ PD‬ﻳﺰداد‬
‫اﻟﺘﻴﺎر اﻟﻤﺎر ﺑﻪ( وﺑﺎﻻﻋﺘﻤﺎد ﻋﻠﻰ ﻣﺘﻄﻠﺒﺎت اﻟﺘﺼﻤﻴﻢ ﻳﻤﻜﻦ أن ﻳﻜﻮن اﻟﺨﺮج ﻣﻔﻴﺪ ﺟﺪًا ﻟﺘﺤﻘﻴﻖ اﻧﺨﻔﺎض ﺗﺄرﺟﺢ ﺟﻬﺪ‬
‫اﻟﺨﺮج ‪ output swing‬أو ‪ .below ground‬إن ‪ auto-zero‬ﻋﺒﺮ ﻣﻘﺎوﻣﺔ اﻟﺘﻐﺬﻳﺔ اﻟﻌﻜﺴﻴﺔ ﻟﻠﻤﻀﺨﻢ آﻤﺎ ﻓﻲ‬
‫اﻷﺷﻜﺎل اﻟﺘﺎﻟﻴﺔ ﺳﻮف ﺗﺴﻤﺢ ﺑﺘﺄرﺟﺢ اﻟﺨﺮج إﻟﻰ اﻟـ‪)ground‬ﻳﻌﻨﻲ إهﻤﺎل اﻟﺘﺄرﺟﺢ اﻟﺴﺎﻟﺐ( آﻤﺎ ﻓﻲ اﻟﺸﻜﻞ )‪(١٢‬‬
‫وﺗﺠﻌﻠﻪ ‪ close to ground‬ﻳﻌﻨﻲ ﻳﺨﺘﻔﻲ اﻟﺘﺄرﺟﺢ اﻟﺴﺎﻟﺐ ﻧﻬﺎﺋﻴًﺎ آﻤﺎ ﻓﻲ اﻟﺸﻜﻞ )‪ ، (١٣‬ﺣﻴﺚ ﺗﻢ وﺻﻞ اﻟـ ‪Vcc‬‬
‫إﻟﻰ اﻷرﺿﻲ ‪ ، Vcc = 0 volte‬وﻣﻨﻪ ﺳﻮف ﻧﺤﺼﻞ ﻋﻠﻰ إﺷﺎرة ﻣﻀﺨﻤﺔ ﻣﻮﺟﺒﺔ ﻓﻘﻂ ﻟﻨﺴﺘﻔﻴﺪ ﻣﻨﻬﺎ ﻓﻲ ﺗﻐﺬﻳﺔ‬
‫اﻟﻤﺮاﺣﻞ اﻟﺘﺎﻟﻴﺔ ‪.‬‬

‫ﺷﻜﻞ)‪  (١٢‬‬
‫اﻟﺸﻜﻞ)‪  (١٢‬‬
‫اﻟﺸﻜﻞ)‪(١٣‬‬
‫ﺻﻔﺤﺔ ‪ ٥‬ﻣﻦ ‪  ١١‬‬
‫‪ ‬‬
‫ﻓﻲ اﻟﺸﻜﻞ )‪ (١٣‬إن رﺑﻂ اﻟﻤﻘﺎوﻣﺔ ‪ R = 40 kΩ‬إﻟﻰ ﻗﻴﻤﺔ ﺳﺎﻟﺒﺔ ﻟﻠﺠﻬﺪ ﺗﺴﺎوي ‪ -5V‬ﺗﺴﻤﺢ ﺑﺘﺄرﺟﺢ ﺳﺎﻟﺐ ﻃﻔﻴﻒ‬
‫ﺟﺪًا ﻓﻲ اﻟﺨﺮج‪.‬ﻳﺒﻴﻦ اﻟﺸﻜﻞ اﻟﺘﺎﻟﻲ ﻣﺨﻄﻄﻲ ﻧﺴﺒﺔ إﻣﺘﺼﺎص اﻟﻀﻮء اﻟﺼﺎدر‬

‫ﻣﻦ اﻟﻠﻴﺪﻳﻦ ﻋﻨﺪ ﻃﻮﻟﻲ ﻣﻮﺟﺔ ﻣﺨﺘﻠﻔﻴﻦ )اﻷﺷﻌﺔ اﻟﺤﻤﺮاء – واﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء(‬

‫وهﻲ ﺗﻤﺜﻞ ﻧﺴﺒﺔ اﻹﻣﺘﺼﺎﺻﺎت اﻟﺨﻴﻔﻴﺔ ﻟﻄﻮﻟﻲ اﻟﻤﻮﺟﺔ‬ ‫ﺣﻴﺚ‬

‫ﺷﻜﻞ)‪  (١٤‬‬
‫‪. 2‬‬ ‫اﻟﻤﺨﺘﻠﻔﻴﻦ وﺗﻘﺎس ﻧﺴﺒﺔ ﺗﺸﺒﻊ اﻟﺪم ﺑﺎﻟـ ‪ O2‬آﻤﺎ ﻳﻠﻲ‪:‬‬

‫ﺑﺴﺒﺐ إﺳﺘﻌﻤﺎل اﻟﻀﻮء ﻓﻲ ﻣﻘﺎﻳﻴﺲ اﻻﻣﺘﺼﺎص ﻓﺈن اﻟﻤﺼﻤﻢ ﻳﺤﺘﺎج إﻟﻰ ﺗﺤﻮﻳﻞ اﻟﻀﻮء‬

‫إﻟﻰ ﺟﻬﺪ ‪ light-to-voltage conversion‬اﻟﺬي ﻳﺴﺘﺨﺪم اﻟﺘﻴﺎر آﺈﺷﺎرة دﺧﻞ ‪.‬‬

‫ﻣﻊ اﻟﻌﻠﻢ أﻧﻪ هﻨﺎك اﻟﻌﺪﻳﺪ ﻣﻦ ‪ photodiode amplifiers‬اﻟﻤﻼﺋﻤﺔ ﻟﺘﻄﺒﻴﻘﺎت اﻟـ ‪ pulse oxymeter‬وﻣﻨﻬﺎ‬
‫اﻟﻈﺎهﺮة ﺑﺎﻟﺸﻜﻞ )‪. (١٠‬‬

‫™ اﻟﻤﺒﺪل ﺁﺣﺎدي اﻟﻤﻴﻞ) ‪ ADC (Analog digital converter‬اﻟﻤﺴﺘﺨﺪم ﻓﻲ اﻟﺸﻜﻞ )‪١٢‬و‪:(١٣‬‬

‫‪ ‬‬

‫ﻳﻌﺘﻤﺪ ﻣﺒﺪأ ﻋﻤﻞ اﻟﻤﺤﻮل ‪ ADC‬ﻋﻠﻰ ﺗﺤﻮﻳﻞ اﻟﺠﻬﺪ اﻟﻤﺮاد ﻗﻴﺎﺳﻪ إﻟﻰ ﻓﺘﺮة زﻣﻨﻴﺔ ]‪ [∆t‬ﺗﺘﻨﺎﺳﺐ ﻗﻴﻤﺘﻬﺎ ﻣﻊ ﻗﻴﻤﺔ‬
‫اﻟﺠﻬﺪ اﻟﻤﺮاد ﻗﻴﺎﺳﻪ ‪ ،‬وﻳﺘﻢ ﻗﻴﺎس اﻟﻔﺘﺮة اﻟﺰﻣﻨﻴﺔ ﻋﻦ ﻃﺮﻳﻖ ﻣﻠﺌﻬﺎ ﺑﻨﺒﻀﺎت ﺳﺎﻋﺔ )‪ Clock(N‬ذات ﺗﺮدد ﻣﺤﺪد ‪fck‬‬

‫ﺣﻴﺚ أن اﻟﺘﻴﺎر ﻓﻲ اﻟﻤﻜﺜﻒ ﻳﺴﺎوي اﻟﺘﻴﺎر ﻓﻲ اﻟﻤﻘﺎوﻣﺔ وﻳﻌﻄﻰ ﺑﺎﻟﻌﻼﻗﺔ اﻟﺘﺎﻟﻴﺔ‪:‬‬

‫ﺣﻴﺚ أن ‪ Vc‬ﻳﻤﺜﻞ ﺧﺮج اﻟﻤﻜﺎﻣﻞ وواﺿﺢ ﻣﻦ اﻟﻌﻼﻗﺔ )‪ (٢‬ﺑﺄن ﺧﺮج اﻟﻤﻜﺎﻣﻞ‬

‫ﻳﻤﺜﻞ ﻗﻴﻤﺔ ﺛﺎﺑﺘﺔ‪.‬‬ ‫هﻮ ﻋﻼﻗﺔ ﺧﻄﻴﺔ ﻣﻊ اﻟﺰﻣﻦ ﺣﻴﺚ‬

‫ﺻﻔﺤﺔ ‪ ٦‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫آﻤﺎ ﻧﻼﺣﻆ أﻧﻪ ﻋﻨﺪﻣﺎ ﻳﻜﻮن ‪ Vc =Vr‬ﻓﺈن اﻟﺰﻣﻦ ‪ t=R*C‬وﻳﺘﻌﻠﻖ اﻟﻘﻴﺎس ﺑﻤﻄﺎل اﻟﻌﻴﻨﺔ اﻟﺘﺸﺎﺑﻬﻴﺔ اﻟﻤﺮاد ﺗﺤﻮﻳﻠﻬﺎ‬
‫إﻟﻰ ﻗﻴﻤﺔ رﻗﻤﻴﺔ ‪.‬إذا ﻳﻜﻮن زﻣﻦ اﻟﻘﻴﺎس اﻷﻋﻈﻤﻲ ﻳﻌﺘﻤﺪ ﻋﻠﻰ أﻋﻈﻢ ﻗﻴﻤﺔ ﺟﻬﺪ ﺗﺸﺎﺑﻬﻴﺔ اﻟﺘﻲ ﻳﺠﺐ ﻗﻴﺎﺳﻬﺎ ﺣﻴﺚ‬
‫‪ Vin = Vmax =Vr‬وﺑﺎﻟﺘﺎﻟﻲ ﻳﻤﻜﻦ أن ﻧﺤﺼﻞ ﻋﻠﻰ اﻟﺰﻣﻦ‬ ‫أن أﻋﻈﻢ ﻗﻴﻤﺔ ﺗﺸﺎﺑﻬﻴﺔ ﻳﻤﻜﻦ ﻗﻴﺎﺳﻬﺎ هﻲ ﻋﻨﺪﻣﺎ‬
‫‪.‬‬ ‫اﻟﻘﻴﺎس اﻷﻋﻈﻤﻲ آﻤﺎ ﻳﻠﻲ‪:‬‬
‫‪.‬‬

‫‪Wireless Oximeter‬‬ ‫™‬

‫اﻟﻨﻮع اﻷﺧﺮ ﻣﻦ أﺟﻬﺰة ﻗﻴﺎس ﺗﺸﺒﻊ اﻷآﺴﺠﻴﻦ ﺑﺎﻟﺪم و ﻣﻌﺮﻓﺔ ﻋﺪد ﻧﺒﻀﺎت اﻟﻘﻠﺐ ﺗﺴﺘﺨﺪم اﻟﺘﻘﻨﻴﺔ اﻟﻼﺳﻠﻜﻴﺔ آﻤﺎ ﻳﻠﻲ‪:‬‬

‫ﻳﺒﻴﻦ اﻟﺸﻜﻞ )‪ (١٧‬اﻟﻤﺨﻄﻂ اﻟﻌﺎم ﻟﻬﺬا اﻟﻨﻮع ﻣﻦ اﻟﻤﻘﺎﻳﻴﺲ‪:‬‬

‫ﺣﻴﺚ ﻳﺘﻜﻮن هﺬا اﻟﻨﻈﺎم ﺑﺸﻜﻞ ﻋﺎم ﻣﻦ ﻣﺮﺳﻞ وﻣﺴﺘﻘﺒﻞ ودارة ﻣﻌﺎﻟﺠﺔ هﻲ‬

‫اﻟﺘﻲ ﺗﻘﻮم ﺑﻤﻌﺎﻟﺠﺔ اﻟﺒﻴﺎﻧﺎت اﻟﻘﺎدﻣﺔ ﻣﻦ اﻟﻤﺮﺳﻞ ﻗﺒﻞ إﻇﻬﺎرهﺎ ﻋﻠﻰ ﺷﺎﺷﺎت‬

‫اﻹﻇﻬﺎر‪ :‬آﻤﺎ ﻓﻲ اﻟﺸﻜﻞ )‪:(١٧‬‬

‫اﻟﺸﻜﻞ)‪  (١٧‬‬
‫‪Transmitter‬‬ ‫دارة اﻟﻤﻌﺎﻟﺠﺔ‬ ‫‪  Receiver‬‬

‫ﺷﻜﻞ)‪  (١٨‬‬ ‫اﻟﻤﺨﻄﻂ اﻟﻌﺎم‬


‫ﻣﻤﻴﺰات هﺬﻩ اﻟﻄﺮﻳﻘﺔ‪:‬‬

‫™ ﻋﻨﺪ اﻟﻤﺮﺳﻞ ‪:‬‬


‫‪ o‬ﺗﺴﻤﺢ ﺑﻤﺮاﻗﺒﺔ اﻟﻌﺪﻳﺪ ﻣﻦ اﻟﻤﺮﺿﻰ ﻓﻲ ﺁن واﺣﺪ ﻣﻦ ﺧﻼل ﻣﺴﺘﻘﺒﻞ )‪ (Receiver‬أو ﻣﺨﺪم واﺣﺪ‬
‫وﻳﻤﻜﻦ أن ﻳﻜﻮن هﺬا اﻟﻤﺨﺪم ﻣﻮﺻﻮل ﺑﺸﻜﻞ ﻣﺎ إﻟﻰ ﺟﻬﺎز آﻤﺒﻴﻮﺗﺮ ﻟﻴﺴﻬﻞ ﻋﻤﻠﻴﺔ اﻟﻤﺮاﻗﺒﺔ‪.‬‬
‫‪ o‬ﻗﺮاءة ﻣﺴﺘﻮى اﻷآﺴﺠﻴﻦ ﻋﻨﺪ اﻟﻤﺮﻳﺾ وإرﺳﺎﻟﻬﺎ ﺑﺸﻜﻞ ﻻ ﺳﻠﻜﻲ‪.‬‬
‫‪ o‬ﺿﻴﺎﻋﺎت اﻻﺳﺘﻄﺎﻋﺔ ﻓﻴﻪ ﻣﻨﺨﻔﻀﺔ ‪ ،‬وﻳﻤﻜﻦ أن ﻳﻌﻤﻞ ﺑﺸﻜﻞ ﻣﺘﻮاﺻﻞ ﻟﻌﺪد آﺒﻴﺮ ﻣﻦ اﻟﺴﺎﻋﺎت ﺑﺸﻜﻞ‬
‫ﻣﺘﻮاﺻﻞ ‪.‬‬
‫‪ o‬ﻳﻤﻜﻦ أن ﻳﺴﺘﺨﺪم ﻋﻠﻰ ﺑﻌﺪ ﻋﺪة ﻣﺘﺮات ﻓﻬﻮ ﻳﻔﻲ ﺑﺎﻟﻐﺮض داﺧﻞ ﻏﺮﻓﺔ ﻣﺘﻮﺳﻄﺔ اﻟﺤﺠﻢ‪.‬‬
‫‪ o‬ﻳﻌﺘﺒﺮ ﺻﻐﻴﺮ اﻟﺤﺠﻢ وﺧﻔﻴﻒ اﻟﻮزن وﻻ ﻳﺴﺒﺐ إزﻋﺎج ﻟﻠﻤﺮﻳﺾ ﻟﺬﻟﻚ ﻓﻬﻮ ﻣﻔﻀﻞ ﻋﻨﺪ اﻟﻤﺮﺿﻰ ﻣﻦ‬
‫اﻟﻨﻮع اﻵﺧﺮ اﻟﺬي ﻳﺴﺘﺨﺪم ﺗﻘﻨﻴﺔ اﻟﻨﻘﻞ اﻟﺴﻠﻜﻲ وﻟﻜﻦ ﻗﺪ ﻳﻜﻮن أﻏﻠﻰ ﻣﻦ اﻟﻨﺎﺣﻴﺔ اﻟﻤﺎدﻳﺔ‪.‬‬

‫وﺑﻨﻔﺲ اﻟﻄﺮﻳﻘﺔ ﻋﻨﺪ ﻟﻠﻤﺴﺘﻘﺒﻞ‪:‬‬

‫‪ o‬ﻳﺴﺘﻘﺒﻞ اﻟﻤﻌﻠﻮﻣﺎت ﺑﺸﻜﻞ ﻻ ﺳﻠﻜﻲ ﻣﻦ ﺟﻬﺎز اﻟـ ‪ OXIMETER‬وﻳﻤﻜﻦ أن ﻳﻨﻘﻠﻬﺎ إﻟﻰ اﻟﺤﺎﺳﺐ‪.‬‬
‫‪ o‬ﻳﻜﻮن ﻗﺎدر ﻋﻠﻰ اﻟﺘﻤﻴﻴﺰ ﺑﻴﻦ اﻟﻤﻌﻠﻮﻣﺎت إذا وﺟﺪ أآﺜﺮ ﻣﻦ ﺟﻬﺎز ﻣﺮاﻗﺒﺔ ﻳﺮﺳﻞ ﻣﻌﻠﻮﻣﺎﺗﻪ ﺑﻨﻔﺲ اﻟﻮﻗﺖ‪.‬‬
‫‪ o‬ﺻﻐﻴﺮ ﻧﺴﺒﻴًﺎ ﻟﺬﻟﻚ ﻳﻤﻜﻦ وﺻﻠﺔ ﺑﺴﻬﻮﻟﺔ إﻟﻰ اﻟﺤﺎﺳﺐ ‪.‬‬

‫ﺻﻔﺤﺔ ‪ ٧‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫™ ﺗﺼﻤﻴﻢ اﻟﺠﻬﺎز ﻋﻨﺪ اﻟﻤﺮﺳﻞ ‪:Transmitter‬‬

‫ﺗﺘﻜﻮن ﻣﻨﻈﻮﻣﺔ اﻟﻤﺮﺳﻞ ﻣﻤﺎ ﻳﻠﻲ ‪:‬‬

‫‪ ‬‬
‫أو ًﻻ‪:‬اﻟﺤﺴﺎس ‪: Sensor‬‬

‫إن ﻣﻌﻈﻢ اﻟﺪارات اﻟﺒﺴﻴﻄﺔ اﻟﻤﺴﺘﺨﺪﻣﺔ ﻟﻘﻴﺎس ﺗﺸﺒﻊ اﻷآﺴﺠﻴﻦ ﺑﺎﻟﺪم هﻲ دارات ‪photoplethysmograph‬‬
‫)دارات ﺗﺨﻄﻴﻂ اآﺘﻈﺎظ اﻟﺪم اﻟﻀﻮﺋﻴﺔ( ‪ ،‬اﻟﺘﻲ ﺗﺤﻮي ﻋﻨﺎﺻﺮ ﺗﻀﺨﻴﻢ ﻟﺘﻘﻮم ﺑﺘﻀﺨﻴﻢ اﻹﺷﺎرة ﻗﺒﻞ ﻗﺮاءﺗﻬﺎ‬

‫ﻓﺘﻈﻬﺮ اﻹﺷﺎرة آﻤﺎ ﻓﻲ اﻟﺸﻜﻞ )‪ .(٢٠‬أي أﻧﺔ ﻳﺘﻢ اﻟﺘﻘﺎط اﻹﺷﺎرة ﻣﻦ ﻣﺼﺪرﻳﻦ‬

‫ﺿﻮﺋﻴﻴﻦ ﺑﺄﻃﻮال ﻣﻮﺟﻴﺔ ﻣﻌﻴﻨﺔ‬

‫آﻤﺎ ﻓﻲ اﻟﺸﻜﻞ )‪.(٢٠‬‬

‫‪  Photoplethysmograph waveform‬‬

‫ﺷﻜﻞ)‪  (٢٠‬‬ ‫ﺷﻜﻞ)‪(٢١‬‬


‫ﻳﻤﻜﻦ ﺗﻤﺜﻴﻞ دارة اﻟﺤﺴﺎس آﻤﺎ ﺑﺎﻟﺸﻜﻞ)‪ (٢٢‬اﻟﺘﺎﻟﻲ‪:‬‬

‫اﻟﺸﻜﻞ )‪(٢٢‬‬ ‫ﻣﺒﺪأ اﻟﻌﻤﻞ‪:‬‬

‫وهﺬﻩ هﻲ دارة اﻟﺤﺴﺎس ‪ Sensor‬اﻟﻤﺴﺘﺨﺪﻣﺔ ﻓﻲ دارة ﺗﺨﻄﻴﻂ اآﺘﻈﺎظ اﻟﺪم ‪ ، photoplethysmograph‬ﻳﺘﻢ‬


‫وﺿﻊ ﻃﺮف أﺻﺒﻊ اﻟﻤﺮﻳﺾ ﺑﻴﻦ اﻟﻤﺮﺳﻞ – اﻟﻤﻜﻮن ﻣﻦ ‪ – Tow LED‬وﺑﻴﻦ اﻟﻤﺴﺘﻘﺒﻞ اﻟﻤﻜﻮن ﻣﻦ‬
‫‪ phototransistor‬آﻤﺎ ﺑﺎﻟﺸﻜﻞ)‪ (٢٢‬أو ﻗﺪ ﻳﻜﻮن أي ﻣﺴﺘﻘﺒﻞ ﺿﻮﺋﻲ ‪ ،‬ﻓﺄﺛﻨﺎء ﻣﺮور اﻟﺪم وﻣﺎ ﻳﺤﻤﻞ ﻣﻦ أآﺴﻴﺠﻴﻦ‬
‫و ‪ Hemoglobin‬ﻓﺈﻧﻪ ﻳﺤﺠﺐ اﻹﺿﺎءة ﺑﻴﻦ اﻟﻤﺮﺳﻞ واﻟﻤﺴﺘﻘﺒﻞ وﺧﻼﻟﻬﺎ ﺗﺘﻢ ﻋﺪ ﻋﺪد ﻣﺮات ﺣﺠﺐ اﻟﻀﻮء ﺑﻴﻦ‬
‫اﻟﻤﺮﺳﻞ واﻟﻤﺴﺘﻘﺒﻞ وهﺬﻩ اﻟﻌ ّﺪات ﺗﻘﺎﺑﻞ ﻗﻴﺎس ﺗﺸﺒﻊ اﻟﺪم ﺑﺎﻷآﺴﺠﻴﻦ وﻧﺴﺒﺔ اﻟـ ‪ Hb‬ﻓﻲ اﻟﺪم وهﺬﻩ اﻟﺪارة ﺗﺸﺒﻪ دارة‬
‫ﻋﺪاد اﻟﻤﻨﺘﻮﺟﺎت ‪ ،‬ﺛﻢ ﺑﻌﺪ ذﻟﻚ ﺗﺴﻠﻢ إﺷﺎرة ﺧﺮج اﻟﻤﺴﺘﻘﺒﻞ إﻟﻰ دارة )‪ High Pass Filter (HPF‬ﻟﻴﺘﻢ ﺗﺮﺷﻴﺢ‬
‫اﻹﺷﺎرة ﻣﻦ إﺷﺎرة اﻟﻀﺠﻴﺞ ‪ noise‬ﺛﻢ ﺗﺴﻠﻢ اﻹﺷﺎرة اﻟﻨﻘﻴﺔ إﻟﻰ ﻋﺎﻣﻞ ﺗﻀﺨﻴﻢ آﻤﺎ ﺗﻈﻬﺮ ﺑﺎﻟﺸﻜﻞ)‪ (٢٠‬ﺣﻴﺚ ﻳﺘﻢ‬

‫ﺻﻔﺤﺔ ‪ ٨‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫ﺑﻌﺪ ذﻟﻚ ﺗﺤﻮﻳﻞ هﺬﻩ اﻹﺷﺎرة اﻟﻤﻀﺨﻤﺔ إﻟﻰ إﺷﺎرة ﺿﻮﺋﻴﺔ ﻟﺴﻬﻮﻟﺔ ﻧﻘﻠﻬﺎ إﻟﻰ اﻟﻤﺮﺳﻞ آﻤﺎ ﻓﻲ اﻷﺟﻬﺰة اﻟﻼﺳﻠﻜﻴﺔ ‪،‬أو‬
‫ﻳﺘﻢ ﺗﺤﻮﻳﻠﻬﺎ إﻟﻰ إﺷﺎرة رﻗﻤﻴﺔ ﺑﻮاﺳﻄﺔ ‪ ADC‬ﻟﻴﺘﻢ ﻗﺮاءﺗﻬﺎ ﺑﺸﻜﻞ رﻗﻤﻲ ودﻗﻴﻖ آﻤﺎ ﻓﻲ اﻷﺟﻬﺰة اﻟﺴﻠﻜﻴﺔ آﻤﺎ ﻓﻲ‬
‫اﻟﺸﻜﻞ)‪. (٢٣‬‬

‫اﻟﺸﻜﻞ)‪(٢٣‬‬

‫ﺛﺎﻧﻴ ًﺎ‪: Oximeter controller :‬‬

‫إن اﻟـ ‪ microcontroller‬ﻟﺠﻬﺎز اﻟـ ‪ Oximeter‬ﻋﻨﺪ اﻟﻤﺮﺳﻞ ﻳﻘﻮم ﺑﺎﻟﻤﻬﺎم اﻟﺘﺎﻟﻴﺔ‪:‬‬

‫اﻟﺘﺤﻜﻢ ﺑﺎﻟﺤﺴﺎﺳﺎت اﻟﻤﻤﺜﻠﺔ ﺑـ ‪. LEDs‬‬ ‫‪o‬‬


‫ﺗﺤﻮل ﺧﺮج اﻟﺤﺴﺎﺳﺎت ‪ Sensors output‬إﻟﻰ ﺷﻜﻞ رﻗﻤﻲ ‪.Digital form‬‬ ‫‪o‬‬
‫ﺗﻤﺮر هﺬﻩ اﻟﺒﻴﺎﻧﺎت ﺑﺸﻜﻞ ﻣﻼﺋﻢ ‪ suitable form‬أو ﻣﻨﺎﺳﺐ إﻟﻰ اﻟﻤﺮﺳﻞ ‪. transceiver‬‬ ‫‪o‬‬
‫ﺗﻮﺟﻴﻪ أو ﻣﻌﺎﻟﺠﺔ اﻟﻨﻈﺎم ﺑﺸﻜﻞ آﺎﻣﻞ ‪.‬‬ ‫‪o‬‬

‫هﻜﺬا ﻓﺈن اﻟﻤﺤﻮل )‪ A/D (Analog digital converter‬ﻟﺪﻳﻪ ﻗﻨﺎﺗﻴﻦ ‪ tow channels‬ﻗﻨﺎة ﻟﻜﻞ ﺣﺴﺎس )‪(LED‬‬
‫وﻟﺪﻳﻬﺎ ﻋﺪد ﻗﻠﻴﻞ ﻣﻦ اﻷرﺟﻞ ‪ Pins‬وﻣﻦ اﻟﻤﺤﺘﻤﻞ أن ﻳﻜﻮن ﻟﻬﺎ ﻋﺪة وﺻﻼت)واﺟﻬﺎت( ‪ Interface‬ﻟﻠﻤﺮﺳﻞ ‪ ،‬آﻤﺎ أن‬
‫ﻳﺴﺘﺨﺪم ذاآﺮة ﺑﺴﻴﻄﺔ ﺟﺪًا ﻟﺬﻟﻚ ﻻ ﺗﺆﺧﺬ ﺑﻌﻴﻦ اﻻﻋﺘﺒﺎر ‪ ،‬ﺣﻴﺚ ﻳﺘﻢ اﺧﺘﻴﺎر ‪  microcontroller‬ﻣﻦ ﻧﻮع ‪FPGA‬‬
‫اﻟﺘﻲ ﻟﻬﺎ اﻟﻌﺪﻳﺪ ﻣﻦ ‪ integrated ADC‬و ‪ saving space‬و ﺳﺮﻋﺔ إﺧﻔﺎء ﻣﻌﻘﻮﻟﺔ ﻣﺜﻞ ‪ 20MHZ‬اﻟﺬي‬
‫ﺳﻴﻜﻮن أآﺜﺮ ﻣﻦ اﻟﻼزم ‪.‬‬

‫ﺛﺎﻟﺜ ًﺎ‪:Power supply :‬‬

‫ﺑﺴﺒﺐ اﻟﻘﻴﻮد ﻋﻠﻰ اﻟﺤﺠﻢ واﻟﻮزن ‪،‬ﻓﺈﻧﻪ ﻣﻦ اﻟﻤﺤﺘﻤﻞ أن ﺗﻜﻮن اﻟﻄﺎﻗﺔ اﻟﻤﻄﺒﻘﺔ ‪ Power supply‬ﻗﻠﻴﻠﺔ وﺧﻔﻴﻔﺔ ﻓﻬﻲ‬
‫ﺗﻐﺬي آﻞ ﻣﻜﻮﻧﺎت اﻟﺠﻬﺎز ‪ Oximeter‬وذﻟﻚ آﻤﺎ ﻳﻈﻬﺮ ﺑﺎﻟﺸﻜﻞ )‪، (١٩‬وﻗﺪ وﺟﺪ ﺑﺄن اﻷآﺜﺮ ﻣﻨﺎﺳﺒﺔ ﻟﺘﺄﻣﻴﻦ‬
‫اﻟﺘﻐﺬﻳﺔ ﻟﻠﺠﻬﺎز هﻲ ﺧﻠﻴﺔ أو ﺧﻼﻳﺎ ﺻﻐﻴﺮة ﻣﻦ اﻟﻠﻴﺜﻴﻮم ‪ small lithium cell or cells‬ﺗﻌﻄﻲ ﻣﻦ ‪ ٤‬إﻟﻰ ‪ ٥‬ﻓﻮﻟﺖ‪.‬‬

‫راﺑﻌﺄ‪: Wireless Transceiver:‬‬

‫ﻳﻮﺟﺪ ﻧﻤﻄﻴﻦ ﻟﻮﺳﻂ اﻻﺗﺼﺎل اﻟﻼﺳﻠﻜﻲ اﻟﺘﻲ ﻳﻌﺘﻤﺪ ﻋﻠﻴﻬﺎ ﻋﻤﻞ ﺟﻬﺎز اﻟـ ‪ Pulse Oximeter‬ﻓﻲ ﻧﻘﻞ اﻟﻤﻌﻠﻮﻣﺎت‬
‫‪ Data‬ﻣﻦ اﻟﻤﺮﺳﻞ إﻟﻰ اﻟﻤﺴﺘﻘﺒﻞ و هﻲ ﻧﻤﻂ اﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء وﻧﻤﻂ اﻹﺷﻌﺎع اﻟﺮادﻳﻮي & ‪Infrared‬‬
‫‪ . Radio Radiation‬ﺣﻴﺚ أن وﺳﻂ اﻷﺷﻌﺔ ﺗﺤﺖ اﻟﺤﻤﺮاء ﻳﻜﻮن ﻣﻨﺎﺳﺐ ﻟﻠﺘﻄﺒﻴﻘﺎت اﻟﺘﻲ ﺗﺤﺘﺎج إﻟﻰ ﻃﺎﻗﺔ‬
‫ﻣﻨﺨﻔﻀﺔ ‪ ، low-power‬ﻟﻜﻨﻬﺎ ﺗﺘﻄﻠﺐ ﺧﻂ ﺑﺼﺮ ‪ line-of-sight‬ﺣﺘﻰ ﺗﻌﻤﻞ ﺑﺸﻜﻞ ﺟﻴﺪ ‪ ،‬وﻗﺪ وﺗﻮاﺟﻪ ﻋﺪة‬
‫ﻋﻮاﺋﻖ‪   obstructions‬ﺧﻼل ﻓﺘﺮة إرﺳﺎل اﻟﻤﻌﻠﻮﻣﺎت آﻮﻧﻬﺎ ﺗﺴﺘﺨﺪم داﺧﻞ ﻏﺮﻓﻪ ﻣﺘﻮﺳﻄﺔ اﻟﺤﺠﻢ ﺗﺤﻮي ﻋﺪة‬
‫أﺷﺨﺎص ‪ ،‬وهﺬا ﻳﻤﻜﻦ أن ﻳﺸﻜﻞ ﺧﻄﺮًا ﻋﻠﻰ اﻟﻤﺮﻳﺾ ‪ ،‬وﻗﺪ ﺗﻢ ﺣﻞ هﺬﻩ اﻟﻤﺸﻜﻠﺔ ﺑﺎﺳﺘﺨﺪام اﻹﺷﻌﺎع اﻟﺮادﻳﻮي‬
‫‪ radio‬آﻮﺳﻂ اﺗﺼﺎل ‪ communication medium‬ﻃﺎﻟﻤﺎ اﻟﻌﻤﻞ ﻳﺘﻢ ﻋﻨﺪ ﻃﺎﻗﺔ ﻋﺎﻟﻴﺔ ﺑﻌﺾ اﻟﺸﻲء ‪slightly‬‬
‫‪ higher power‬ﺣﻴﺚ ﺗﻜﻮن هﺬﻩ اﻷﻣﻮاج ﻗﺎدرة ﻋﻠﻰ اﺧﺘﺮاق اﻷﺟﺴﺎم وﺑﺎﻟﺘﺎﻟﻲ ﻧﻈﻤﻦ ﺗﺴﻠﻴﻢ اﻟﻤﻌﻠﻮﻣﺎت إﻟﻰ‬
‫اﻟﻤﺴﺘﻘﺒﻞ ‪ Receiver‬ﺑﺸﻜﻞ ﺳﻠﻴﻢ ‪ 100%‬ﺣﺘﻰ ﺑﻮﺟﻮد ﻋﺪة أﺷﺨﺎص ﺑﺎﻟﻐﺮﻓﺔ اﻟﻮاﺣﺪة ‪.‬‬

‫ﺻﻔﺤﺔ ‪ ٩‬ﻣﻦ ‪  ١١‬‬


‫‪ ‬‬
‫ﻋﻨﺪ ﺗﺼﻤﻴﻢ ‪ Transceiver‬ﻳﺠﺐ ﻣﺮاﻋﺎة ﻋﺪة أﻣﻮر ﻣﻨﻬﺎ‪:‬‬

‫اﻟﺤﺠﻢ ‪ :‬ﺣﻴﺚ ﻳﺠﺐ أن ﻳﻜﻮن ﺣﺠﻤﻪ ﺻﻐﻴﺮ ﻗﺪر اﻹﻣﻜﺎن ﺑﺤﻴﺚ ﻻ ﻳﻀﺎﻳﻖ اﻟﻤﺮﻳﺾ ‪.‬‬ ‫‪o‬‬
‫أن ﺗﻜﻮن اﻟﻔﺘﺤﺔ اﻟﺘﻲ ﻳﺘﻢ ﺗﺜﺒﻴﺘﻬﺎ ﻋﻠﻰ اﻟــ ‪ Finger‬ﻟﻠﻤﺮﻳﺾ ﻣﺮﻧﺔ ﺑﺤﻴﺚ ﻻ ﺗﺆذي اﻟﻤﺮﻳﺾ أﺛﻨﺎء اﻟﻌﻤﻞ‬ ‫‪o‬‬
‫ﻋﺮض ﺣﺰﻣﺔ اﻹرﺳﺎل ﻟﻠﻤﺮﺳﻞ ﻳﺠﺐ أن ﺗﻜﻮن ﺿﻴﻘﺔ ﺣﺘﻰ ﻳﻤﻜﻦ ﻟﻠﻤﺴﺘﻘﺒﻞ أن ﻳﺴﺘﻘﺒﻞ اﻟﻤﻌﻠﻮﻣﺎت ﺑﺪون‬ ‫‪o‬‬
‫أي ﺿﻴﺎع أو ﺗﺸﺘﺖ ‪.‬‬
‫ﺳﻬﻮﻟﺔ اﻟﺮﺑﻂ ﻣﻊ اﻟـ ‪.  microcontroller‬‬ ‫‪o‬‬

‫™ ﺗﺼﻤﻴﻢ اﻟﺠﻬﺎز ﻋﻨﺪ اﻟﻤﺴﺘﻘﺒﻞ ‪:Receiver‬‬

‫ﺗﺘﻜﻮن ﻣﻨﻈﻮﻣﺔ اﻟﻤﺴﺘﻘﺒﻞ ﻣﻤﺎ ﻳﻠﻲ ‪:‬‬

‫ﺷﻜﻞ )‪(٢٣‬‬

‫™ أو ًﻻ‪: Receiver:‬‬
‫إن اﻟﻤﺴﺘﻘﺒﻞ ﻳﺤﺘﺎج إﻟﻰ ﻣﻤﺮﻳﻦ ‪ Tow Pass‬اﻟﻤﻤﺮ اﻷول ‪ First Pass‬ﻳﺴﺘﻘﺒﻞ اﻟﻤﻌﻠﻮﻣﺎت اﻟﻮاردة ﻣﻦ اﻟﻤﺮﺳﻞ‬
‫وإرﺳﺎﻟﻬﺎ إﻟﻰ اﻟﺤﺎﺳﺐ ﻟﻤﺮاﻗﺒﺔ ﺣﺎﻟﺔ اﻟﻤﺮﻳﺾ ‪ ،‬واﻟﻤﻤﺮ اﻟﺜﺎﻧﻲ ‪ Second Pass‬ﻳﺴﺘﺨﺪم ﻹرﺳﺎل أواﻣﺮ اﻟﺘﺤﻜﻢ ﻣﻦ‬
‫اﻟﻤﻌﺎﻟﺞ إﻟﻰ اﻟﻤﺴﺘﻘﺒﻞ اﻟﺬي ﻳﻌﺘﺒﺮ ﻟﺠﻬﺎز اﻟـ ‪. Oximeter‬‬

‫™ ﺛﺎﻧﻴ ًﺎ‪: Receiver controller:‬‬


‫إن اﻟﻤﺘﺤﻜﻢ ‪ Controller‬ﻋﻨﺪ اﻟﻤﺴﺘﻘﺒﻞ ﻳﻘﻮم ﺑﻌﺪة ﻣﻬﺎم ﻣﻨﻬﺎ ‪:‬‬

‫‪ o‬ﻣﻌﺎﻟﺠﺔ اﻟﻤﻌﻠﻮﻣﺎت ‪ Data‬اﻟﻤﺴﺘﻘﺒﻠﺔ أو اﻟﻮاردة ﻣﻦ اﻟﻤﺮﺳﻞ‪.‬‬


‫‪ o‬إﻋﻄﺎء أواﻣﺮ اﻟﺘﺤﻜﻢ إﻟﻰ اﻟﻤﺴﺘﻘﺒﻞ ﻟﻠﺠﻬﺎز‪.‬‬
‫™ ﺛﺎﻟﺜ ًﺎ‪: PC communication:‬‬
‫إن اﻟﻄﺮﻳﻘﺔ اﻟﻨﻤﻮذﺟﻴﺔ ﻟﻮﺻﻞ اﻟﻤﺴﺘﻘﺒﻞ ﻣﻊ اﻟﺤﺎﺳﺐ اﻟﺸﺨﺼﻲ ‪ PC‬هﻲ ﻋﻦ ﻃﺮﻳﻖ ﻋﺪة ﻣﻨﺎﻓﺬ ﺗﺴﻠﺴﻠﻴﺔ ‪serial‬‬
‫‪ ، port‬أي أﻧﺔ ﻟﺘﺠﻨﺐ ﺑﺄن ﻳﻜﻮن اﻟﻤﺴﺘﻘﺒﻞ ﻣﻐﺬاة ﻣﻦ ﺑﻄﺎرﻳﺔ ﻓﺈن وﺻﻠﺔ ﻣﻊ ﻣﻨﻔﺬ اﻟـ ‪USB‬هﻮ اﻟﺨﻴﺎر اﻷﻓﻀﻞ ‪.‬‬

‫‪ :‬اﻟﻤﺮاﺟﻊ‪:‬‬

‫*‪www.axb.HORIBA.com‬‬

‫*ﻣﻠﺘﻘﻰ اﻟﻤﻬﻨﺪﺳﻴﻦ اﻟﻌﺮب‪.‬‬

‫*‪http:/www.vitality medical.com/‬‬

‫إﻋﺪاد اﻟﻤﻬﻨﺪس‪/‬ﻣﺠﺎهﺪ اﻟﻌﻨﺘﺮي‬

‫ﺻﻔﺤﺔ ‪ ١٠‬ﻣﻦ ‪  ١١‬‬


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‫ﺻﻔﺤﺔ ‪ ١١‬ﻣﻦ ‪  ١١‬‬
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