Radio Engineer Specializes transmission reception will build PC card with Antennas
NEW DESIGN = NOT AVAILABLE YET - 9/11/22
Mind control radio frequency list
A radio engineer who specializes in transmission and reception will build us a selective card with sensitive antennas and anyone who wants to can check for himself if it emits radio signals when 80 percent of the channels are exposed..!!!
It's 6 years of work - save and share in groups.. important information that was never concentrated on one page
The frequencies and values displayed by the selective card in the electromagnetic spectrum while filtering out noise and displaying small film carriers
(MHZ, KHZ, HZ, GHZ), the card displays 80 percent of brain control frequencies
Note: in many documents it seems that the range is the band width and its work channel.. so for your professional consideration..!!
The maximum power for mind control per cm on the surface of the skull is: 0.3 watts
Synthetic telepathy:
0.1 MHZ - 6 GHz (wide)
300 MHZ - 3 GHZ (reduced)
remote neural monitoring:
3 - 5 GHz (low) / 499.2 MHz bandwidth
6 - 10 GHz (high) / 499.2 MHz bandwidth
Teleportation - Transfer of an inanimate object, person or particle Transferring the physical dimensions or parts of the spirit to astral travel
10 MHZ -300 GHZ
+ Electrophoresis
Holoportation - Broadcasting holograms from place to place
10 HZ - 10 GHZ
Teleportation + holoportation working on an ultra-band wide EMF portal
0.1 Hz - 1500 kHz
Medical Implant Communication Service:
380 -480 MHZ / NASA Earth Telemetry Network
402 - 401 MHZ / 300 kHz bandwidth
Medical Service Communication (biological tissues)
403.5 MHZ / 300 kHz bandwidth
402 -405 MHZ / 300 kHz bandwidth
405 - 406 MHZ / 300 kHz bandwidth
413 - 419 MHZ / 300 khz bandwidth
426 - 432 MHZ / 300 khz bandwidth
438 -444 MHZ / 300 khz bandwidth
450 MHZ / 1.25 + 1.4 MHz bandwidth
420 - 450 MHZ / 1.25 + 1.4 MHZ bandwidth
451 - 457 MHZ / 300 kHz bandwidth
433 MHZ / 300 KHZ bandwidth
530 MHZ / 300 KHZ bandwidth
3.45 – 3.98 GHZ bandwidth
Continue Medical Implant Communication Service:
Ultra band and wide 2 ranges low + 2 ranges high
(2 low ranges)
3.2 – 4.7 GHZ
3.1 – 10.76 GHZ
499 MHZ bandwidth / 70 – 90 db
(2 high ranges)
6.2 – 10.3 GHZ
4.7 – 13.2 GHZ
499 MHZ bandwidth / 90 – 110 db
Wireless medical telemetry service:
608 - 614 MHz / 1.4 GHZ , TV channel 37
1392– 1395 MHz / 1 MHz band
1395- 1400 MHz / 1 MHz band
1427– 1429.5 MHz / 1 MHz band
1427 - 1432 MHz / 1 MHz band
Body Lan/Medical Body Area Network:
2360 – 2390 MHZ
2500 MHZ - 1.785 GHZ
MHZ 847- Micro link from the brain to the phone
(Frying the victim's brain with a module)
863 – 870 MHz
MHz 900 / (200 MHz bandwidth)
(915 MHZ Simulation of volumetric sensing)
902 – 928 MHZ / 500 KHZ bandwidth
956 MHZ / 400 KHZ bandwidth
0.1 Hz - 400 kHz / GHZ Ultra Band 3.1 – 10.6
Satellites monitor brain activity (body lan / body area network
10 , 16 ,27 MHZ / ( mv250 – 10)
Overlapping ranges of Mind control (Bluetooth range):
Under (Medical Implant Communication Service)
2400 – 2480 MHz – (1 MHz bandwidth)
2320 – 2400 MHz – (1 MHz bandwidth)
2400 – 2438.5 MHz – (1 MHz bandwidth)
Individual channels (Bluetooth continued):
2402,2441,2480 MHZ br,edr – mod
2402,2426,2480 MHZ le – mod
2478,2404,2442 MHZ le2 – mod
2458,2430,2408 MHZ medical implants
Channels (1,6,11) / 21.7 -30.9 db
Additional Bluetooth domain audiogram data from the brain and body:
2412 MHZ / 20 MHz bandwidth (channel 1)
2437 MHZ / 20 MHZ Bandwidth (Channel 6)
2462 MHZ / 20 MHz bandwidth (channel 11)
On this module you can get the most sensitive behavior change..!!
2450 – 600 MHZ / 0.1 Hz – 400 KHZ
(50 MHz - 2450 MHz) - this is the wide range on a pulse module in the range 0.1 Hz - 400 kHz of changing human behavior
Low Power cochlear Implant System:
2483.5 – 2500 MHZ / 1 + 2 + 16.5 MHZ bandwidth
1610 – 1626.5 MHZ / 1 + 2 + 16.5 MHZ bandwidth
Frequency range (mental window) exclusive to the police:
136 – 174 MHz (low)
150 – 174 MHz (low)
174 – 216 MHz (low)
380 – 400 MHz (medium)
400 – 420 MHz (medium)
450 MHz / 1 + 1.25 + 1.4 MHz bandwidth
450 – 470 MHz / 22 + 25 kHz, 4, 20 MHz
421 – 470 MHz (high)
(410– 420) MHZ dense range
482 – 488 MHz (high) TV channel 16
512 – 470 MHZ
512 – 450 MHZ
Bandwidth for every frequency of the police mental window:
150 KHz, 100 KHz, 75 KHz , 62.5 KHz, 50 KHz, 37.5 KHz, 25 KHz , 12.5 KHz
20 MHZ (6 - 18 MHZ) TV channel 14 + 12.5 kHz
608 – 512 MHz / TV channel 21 + 36
698 – 757 MHz / 1 MHz bandwidth
763 – 758 MHz / 1 MHz bandwidth
757 – 758 MHz / 1 MHz bandwidth
775 – 776 MHz / 1 MHz bandwidth
776 – 787 MHz / 1 MHz bandwidth
788 – 793 MHz / 1 MHz bandwidth
700 + 600 + 800 + 900 MHz / 100 kHz bandwidth frequency in use within the range 450,452,435 MHz
The ranges or channels are listed above transmit/receive modules
of behavioral change sciences in the range:
0.1 Hz - 400 kHz bandwidth
446.8250 MHZ for nano node, nanotube, hydrogel GQD
1 – 1.8 GHz GPS working range (wide)
10.23 MHz / this base frequency is multiplied by 154 and 120
to produce a spread spectrum signal of a bandwidth of
2.046 MHz and 20.046 MHz
All channels GPS are 1-1.8 GHz and are written in MHz
1575.42
1227.6
1381.05
1379.9133
1176.45
1164
1189
1207.140
1214
1215
1237
1239.6
1254
1260
1278.75
1300
1544
1545
1559
1563
1587
1591
1593
1610
Nav Star GPS Scalar Microwave Beam:
3600 – 3750 MHZ
3550 – 3650 MHZ
3200 – 3750 MHZ
3.45 – 3.65 GHZ / 10 MHz bandwidth
GPS cell tower (location triangulation):
2600 – 2300 MHZ
Medical application:
1435 – 1525 MHZ - (Heronautical Mobile Telemetry)
2200 – 2290 MHZ - NASA telemetry
2290 – 2300 MHZ - NASA telemetry
2360 – 2390 MHZ - (Heronautical Mobile Telemetry)
2360 – 2600 MHZ - (Heronautical Mobile Telemetry)
2 – 7 – 8 GHZ - NASA Deep Earth Telemetry
Brain Computer Interface Signal Kernel:
4827.448 MHZ
v2k voice to skull:
450 – 420 MHZ
1.3 GHZ
1000 MHZ
2.4 – 10 GHZ
Nano Acoustic Communication
(Implant Power Application)
10 – 300 MHZ (low)
100 – 300 MHZ (high)
200 MHZ - vibrating resonator, remote stimulation
215 MHZ (high)
13.4 MHZ - receiving electricity from the air
(clock frequency) nanotube neurological neural network
8.1 MHZ
12.85 MHZ
50 MHZ
60 MHZ
20 MHZ
40 MHZ
10.9 MHZ
1.5 GHZ
1.6 GHZ
1.85 GHZ
2.3 – 3.2 GHZ
500 KHZ
100 – 170 KHZ
250 – 400 KHZ
Inside the range above there are visual and audio messages, causing the nanorobots to move geometrically and an opportunistic meeting between them.. (for a 1 micron nanotube antenna)
Burning in the body:
30 - 300 MHZ - external burning to the body
10 - 100 MHZ - internal burning to the body
Specific frequencies and ranges:
441 MHZ - operating frequency of nanorobots
200.02 MHZ - frequency of nano belt
3.2 GHZ - (bio mems) working frequency
2.1 – 2.15 GHZ - range of nano NEMS/MEMS
100 – 10 KHZ - range of nanorobots (pay attention to kilohertz)
3920 – 3935 MHZ - (attack vector)
1.28 GHZ - operating frequency of a graphene ring
1680 MHZ - used to receive a bio-signature of brain waves
1 – 100 MHz - hidden acoustic signals with the doctor (nanorobots)
124.14 MHz - vibration of nano wire
147 MHz - nanotube electromechanical resonance (physical harassment) 6 Hz - 20 kHz bandwidth with an intensity of 0.8m/cm3 causes the release of calcium ions from the body and brain
55 MHz - nanotube electromechanical resonance (physical, motor harassment) 10 MHz, 10 kHz, 300 MHz bandwidth
30 – 150 MHz - range (wide) electromechanical resonance (nanotube) physical harassment, motor harassment
300 MHz /10 KHZ bandwidth
400 – 10 MHZ
400 – 40 MHZ
10 kHz - 300 MHz - Nanotube device resonator (wide) bandwidth
434.63 – 458.21 KHZ nanotube electromechanical resonance (kilohertz)
50 MHz - 2.4 GHz - wide range attack signals
wide working range Tesla attack (HAARP) + remote viewing
3.26 - 17.54 MHZ
5.340 MHZ - Tesla operating frequency
nano-oscillators bioelectric signals, biological sensing potential (spin transfer torque)
0.85 GHZ
0.45 - 1.42 GHZ bandwidth
DC - 10 GHZ - working frequency range of neural network (nanotube)
Sensors nominal 15 milliwatts
DC – 10 GHZ - range of a nanotube antenna
2.6 GHZ - channel of Nanotube
The connection of the nanotube to the flesh of the parasite's white kernel cross-link of the nano-nature of the body (SWCNT) zigzag structure of cells is made
8.8 GHZ / 22db, 16-17 db
Information about the capacitors inside the nanotube (which is a neural network inside the body) fast bipolar SiGe BFP 640F
Nanotube power consumption in the range of
10 -100 mv
Corrects very small signals up to −15 dBm (nanotube)
It is charged from frequencies/magnetic induction/photosynthesis/optical/thermal/infrared radiation from any substance that is in the dioxide state/from the circulatory system/the body's electrical activity/electrostatics and it has nuclear fuel cells
The nanotube diodes have a working range of
100 mv - 400 mv
operating frequency of graphene plasmonic transceiver
7 GHZ
AC current (250 MHz) Output trace response time (nanotube)
224.840 MHz - mind control telemetry in the field of radio amateurs
effective range for microwave audio effect
10 – 2.4 GHZ
dc - 100 kHz bandwidth (wide) - video from the eyes
10 + 50 + 200 HZ / 1 + 2 + 4 + 6 + 9 MHZ bandwidth
dc - 100 kHz bandwidth (wide) - video from the eyes
61.9 + 66 + 72.5 HZ + 1 + 2 + 4 + 6 + 9 MHz bandwidth
Ion channels (negative + positive)
100 – 10 KHZ / 10 MHz bandwidth
Protein channels (functional proteins)
100 – 10 KHZ / 10 MHz bandwidth
500 – 10 KHZ / 10 MHz bandwidth
PRF signal technique pulse repeat chain frequency
In the bioengineering document (biotelemetry) it is explicitly written that FM transmissions may be used as frequency modulation, changing the operating point of the transistor in the nanotube, changing the receiving capacitance and therefore changing the resonant frequency of the circuit
29.7 – 89.5 MHZ
88 – 108 MHZ (FM) / DC – 1 GHz bandwidth
136 – 174 MHZ
146 – 174 MHZ
174 – 216 MHZ / (low) biological details / 7 + 13 MHZ
450 – 470 MHZ (intermediate)
5,20,6,2 MHZ bandwidth
100 + 300 + 14.3 Hz band / 11.25 + 12.5 + 6.25 + 20 + 22 + 18+ 25 + 5 + 2.4 + 1 + 0.96 + 1.2 + 4.8 + 10.29 + 10 + 40 + 50 + 75 kHz bandwidth
608 - 614 MHZ / (intermediate) / 14 + 12 + 37 bandwidth
614 – 698 MHZ / TV channel 38 + 51
470 – 668 MHZ / (high) 14 + 46 bandwidth
1350 – 1390 MHZ
1395 – 1400 MHZ / (super high) 14 band
1427 – 1432 MHZ / (super high) 14 band
1432 – 1435 MHZ / (super high) 14 band
555 MHZ - pass-through channel during disturbances
According to the document, broadband may arrive in the following channels:
(37,102,153,159,220,450) MHZ
2.4 – 2.5 GHZ bandwidth
5.150 – 5.875 GHZ bandwidth
It is suspected that the Ultra Bandwidth is
0.1 MHz - 10 GHz
Ultrasound Implant Device Target Drug Delivery
(piezoelectric transmissions)
0.94 – 1.28 MHZ / 1 MHz resonance operand
Implanted receiver (microstimulator) MEMS piezo ceramic
2.25 MHZ / 1.5 mw/cm2
Resonance Photoacoustic Image (nanotube)
11.7 – 2.8 MHZ
8 – 2.8 MHZ (low)
15 – 2 MHZ (medium)
25 – 8.5 MHZ (high)
2 – 33 MHZ / Bandwidth (27.12 MHZ) for all ranges
Neurostimulator receiver each 256 - 1024 nerve stimulation channels capable of transmitting biphasic current in each channel 1 - 250 phase pairs
Capable of stimulating each channel at repetition rates of
100 – 10 HZ (dense)
10 - 250 HZ (wide)
Nominal stimulation rate at 30 Hz
Each channel is adjustable in the range of 0 - 12700 Resolution 100 microseconds Maximum output current of each module 1024 microamps
- communication between the implants (nanotube) inside the body and between people or elements or products in the environment. Repulsion or attraction between people like magnets
570 HZ - 2 MHZ
range of attacks by needles and pins in the body or blows to the body or head
425 – 1310 MHZ
audiogram communication includes all the biological details of control
Cerebral (eeg, emg, ecg, ccr, gsr, etc. with the help of the nanotube networked throughout the body..
125 – 1310 MHZ / 80 db
projection of nano tube fiber signals into the environment (electromagnetic resonance) detects signals of animals and substances and manages an independent life intelligence against them which includes a wide range of mechanical/kinetic/chemical reactions (selections) in which to avoid or continue..
1 - 2.4 GHZ
The frequencies the values displayed by the selective card in the electromagnetic spectrum while filtering noises and displaying the powers and widths of the small: KHZ
Electromagnetic emission into the environment of any living creature (range)
16 HZ – 150 KHZ
Telemetry tracking ultrasound signal
19.6 KHZ / 50 kHz bandwidth
Electromechanical resonance frequency range of a nanotube
458.21 - 434.6 KHZ
it was not written but in my opinion in combination with ultra bandwidth and wide nanotube electromechanical resonance range in the range
30 - 150 MHz (default 55 MHz)
reaction of microorganisms in the body to physical signals (fast movement with 1490 S/M sensing)
2.28 KHZ
Ultra low power active medical implant (bio telemetry)
5 – 300 KHZ
9 – 315 KHZ
creating bubbles on the surface of the skin and inside the
body (sensing)
20 KHZ
75 - 200 KHZ - remote viewing
175 – 150 MHZ - remote neural monitoring (MHZ)
(60,000 thousand words and translation into many languages)
Emergency net on the ground
GPS nanotube implants (bio telemetry)
11.875 - 10 KHZ
Biomedical Engineering Chemical Engineering (nanotube)
The sound communication range of nanotube implants (broad)
1500 – 300 KHZ / (low) 1 MHz band
1650 – 550 KHZ / (medium) 1 MHz band
In the high range, the document mixes mind control through the television on AM
30 – 3 MHZ (high)
225 – 400 KHZ - biofeedback NSA
tracking and decoding biological - signals (eeg ecg, emg, gsr, ccr) transmission and reception of the ultra-band and
100 HZ – 1 KHZ
wide wave carrier range in the megahertz range
125 – 1310 MHZ (there is also a range in MHz)
100 – 10 KHZ - range of nano robots
electromechanical simulation in the body of micro/nano robots (NEMS, MEMS))
55.1 + 55.2 KHZ
Electronic torture (I have a feeling that both can be bandaged) I did not find any more information
(20 – 340 Hz) + (20 – 200 KHZ)
A range of silent subliminal transmissions
20 - 14 KHZ (wide)
20 – 16 KHZ (dense)
The overall combination of electronic attack and the widest ranges where either range can be nad wide
0.1 - 100 HZ
+
0.1 - 1500 KHZ
+
0.1 MHZ - 10 GHZ
100 – 1000 HZ + carrier frequency (450 MHz) is used to interact with the nervous system of the target
0.1 HZ - 400 KHZ (wide)
(crowded) negative symptoms: cough - phlegm, headache, suffocation, etc. + carrier frequency
50 - 100 HZ
May be on Ultra Bandwidth
50 – 2450 MHZ
Suspect that it is possible to play manually
0.1 MHz - 10 GHz
(mental access window frequencies) They can overlap each other in bandwidth
7.83 HZ – 7.81 HZ + 400 MHZ – 750 MHZ
Sound signals (downlink) enter the brain
18.5 – 18.7 KHZ (wide)
35 – 15 KHZ (high)
150 HZ Bandwidth / 1-10 micro volts
16.2 – 13.6 KHZ (wide)
10 – 19 KHZ (high)
15.96 – 16.21 MHZ
possible trauma, tissue heating nerve stimulation, burns, dehydration + bandage
5 – 30 KHZ
Sound signals (uplink) coming out of the brain (dense range that causes bleeding and spasms)
0.5 -2.5 KHZ
162 – 136 KHZ (wide)
130 – 190 kHz (high)
135.7 – 137.8 KHZ (wide)
130 – 190 kHz (low)
136 kHz (default)
160 - 190 KHZ - mind control (radio enthusiasts)
10 – 190 KHZ - White House radar
Additional details (nanotube):
The discharge of capacitors inside the nanotube and chips is
0.4 HZ
Sub Carrier Oscillator
320 HZ
Multivibrator Electrode Nanotube Shifted Subcarrier
1 KHZ (electromechanical resonance at 400 hertz)
Crystal controlled oscillator inside the nanotube
4 x 115 MHZ
Crystal filter 8 pole / 10 kilohertz, band width selective receiver
Discriminator Oscillator Automatic Frequency Control
1 kHz / low pass filter 50 Hz (biological details)
The runners/Micro Tesla - 0.1 Hz - 1500 kHz
Clock rate of the output/input current inside the nanotube 13.56 MHz AC current (absorbing electricity from the air)
Nanotube active vibrations, chemical and thermal reactions and smart thermal reaction intelligence in the range:
300 – 200 Kelvin
The total heat capacity at constant volume (Cv) is about 38 J/(K mol) of a nanotube
Implanted devices:
402 MHZ / 19, 27 MHZ
433 MHZ MHz / 19, 22, 28
868 MHz / 25 ,28 MHZ
915 MHz / 25, 28 ,30 MHZ
1.4 GHZ / 31 MHZ
2.45 GHZ / 21, 23 ,27, 31 MHZ
DC - 6 GHZ Ultra Band
Ingestion devices:
433 MHZ / 34 MHZ
500 MHZ / 35 , 36 MHZ
800 MHZ / 34 MHZ
1.2 GHZ / 34 MHZ
1.4 GHZ / 37, 38 MHZ
2.4 GHZ / 39, 40 MHZ
Injectable devices:
132 KHZ / 41 MHZ
2 MHz / 42, 43 MHZ
13.56 MHZ MHz / 44
915 MHz / 45 MHZ
In some documents it was written that the pulse may reach
300 MHz to 300 GHz
Sweet revenge for the CIA for future generations and my endless intelligence report.. that all the channels together will be from 450 documents..!!
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