ورود به حساب

نام کاربری گذرواژه

گذرواژه را فراموش کردید؟ کلیک کنید

حساب کاربری ندارید؟ ساخت حساب

ساخت حساب کاربری

نام نام کاربری ایمیل شماره موبایل گذرواژه

برای ارتباط با ما می توانید از طریق شماره موبایل زیر از طریق تماس و پیامک با ما در ارتباط باشید


09117307688
09117179751

در صورت عدم پاسخ گویی از طریق پیامک با پشتیبان در ارتباط باشید

دسترسی نامحدود

برای کاربرانی که ثبت نام کرده اند

ضمانت بازگشت وجه

درصورت عدم همخوانی توضیحات با کتاب

پشتیبانی

از ساعت 7 صبح تا 10 شب

دانلود کتاب Antennas for all Applications-Solution Manual

دانلود کتاب آنتن برای همه برنامه ها - راه حل

Antennas for all Applications-Solution Manual

مشخصات کتاب

Antennas for all Applications-Solution Manual

ویرایش: 3 
نویسندگان:   
سری:  
 
ناشر:  
سال نشر:  
تعداد صفحات: 159 
زبان: English 
فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) 
حجم فایل: 1 مگابایت 

قیمت کتاب (تومان) : 42,000



ثبت امتیاز به این کتاب

میانگین امتیاز به این کتاب :
       تعداد امتیاز دهندگان : 12


در صورت تبدیل فایل کتاب Antennas for all Applications-Solution Manual به فرمت های PDF، EPUB، AZW3، MOBI و یا DJVU می توانید به پشتیبان اطلاع دهید تا فایل مورد نظر را تبدیل نمایند.

توجه داشته باشید کتاب آنتن برای همه برنامه ها - راه حل نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.


توضیحاتی درمورد کتاب به خارجی



فهرست مطالب

2-7-1.  Directivity.
2-7-2.  Approximate directivities.
2-7-2.  continued
*2-7-3.  Approximate directivities.
*2-7-3.  continued
*2-7-4.  Directivity and gain.
2-9-1.  Directivity and apertures.
2-9-1.  continued
2-9-2.  Effective aperture and beam area.
*2-9-3.  Effective aperture and directivity.
2-11-1.  Received power and the Friis formula.
2-11-1.  continued
*2-11-2.  Spacecraft link over 100 Mm.
2-11-3.  Spacecraft link over 3 Mm.
2-11-4.  Mars and Jupiter links.
2-11-4.  continued
2-11-4.  continued
*2-11-5.  Moon link.
2-16-1.  Spaceship near moon.
2-16-1.  continued
2-16-2.  More power with CP.
2-16-3.  PV constant for CP.
2-16-3.  continued
*2-16-4.  EP wave power
2-17-1.  Crossed dipoles for CP and other states.
*2-17-2.  Polarization of two LP waves.
2-17-3.  Superposition of two EP waves.
*2-17-4.  Two LP components.
2-17-5.  Two LP components and Poincaré sphere.
*2-17-6.  Two CP waves.
*2-17-6.  continued
*2-17-7.  CP waves.
2-17-8.  EP wave.
*2-17-9.  CP waves.
2-17-10.  EP waves.
2-17-10.  continued
*2-17-11.  CP waves.
*2-17-11.  continued
2-17-12.  Circular-depolarization ratio.
3-4-1.  Alpine-horn antenna.
*3-4-2.  Alpine-horn antenna.
*3-5-2.  Rectangular horn antenna.
*3-5-3.  Conical horn antenna.
Beamwidth and directivity
*4-3-1.  Solar power
4-5-1.  Approximate directivities.
*4-5-2.  Exact versus approximate directivities.
4-5-3.  Directivity and minor lobes.
4-5-3.  continued
4-5-4.  Directivity by integration.
4-5-5.  Directivity.
5-2-4.  Two-source end-fire array.
5-2-8.  Four sources in square array.
5-5-1.  Field and phase patterns.
5-6-5.  Twelve-source end-fire array.
5-6-7.  Twelve-source end-fire with increased directivity.
5-6-9.  Directivity of ordinary end-fire array.
5-6-9.  continued
5-6-10.  Directivity of broadside array.
5-8-1.  Three unequal sources.
5-8-7.  Stray factor and directive gain.
5-8-7.  continued
*5-9-2.  Three-source array.
5-9-2.  continued
R
5-9-4.  Eight source D-T distribution.
*5-18-1.  Two sources in phase.
5-18-2.  Two sources in opposite phase.
*6-2-1.  Electric dipole.
*6-2-2.  Short dipole fields.
*6-2-2.  continued
*6-2-4.  Short dipole quasi-stationary fields.
*6-2-4.  continued
*6-3-1.  Isotropic antenna.  Radiation resistance.
*6-3-2.  Short dipole power.
*6-3-2.  continued
6-3-4.  Short dipole.
*6-3-5.  Conical pattern.
*6-3-5.  continued
6-3-6.  Conical pattern.
*6-3-7.  Directional pattern in and
*6-3-8.  Directional pattern in and
*6-3-9.  Directional pattern with back lobe.
6-3-10.  Short dipole.
6-3-10.  continued
6-3-11.  Relation of radiation resistance to beam area.
*6-3-12.  Radiation resistance.
*6-5-1.  /2 antenna.
6-6-1.  2 antenna.
6-6-1.  continued
6-7-1.  /2 antennas in echelon.
*6-8-1.  1 and 10 antennas with traveling waves.
6-8-2.  Equivalence of pattern factors.
6-8-2.  continued
7-2-1.  Loop and dipole for circular polarization.
7-2-1.  continued
7-4-1.  The 3(/4 diameter loop.
*7-6-1.  Radiation resistance of loop.
Small-loop resistance.
7-7-1.  The (/10 diameter loop.
7-8-1.  Pattern, radiation resistance and directivity of loops.
7-8-1.  continued
*7-8-2.  Circular loop.
*7-9-1.  The 1( square loop.
*7-9-1.  continued
7-9-2.  Small square loop.
8-3-1.  A 10-turn helix.
8-3-2.  A 30-turn helix.
8-3-2.  continued
8-3-3.  Helices, left and right.
*8-8-1.  An 8-turn helix.
*8-11-1.  Normal-mode helix.
*8-11-1.  continued
8-15-1.  Design of quad-helix earth station antenna.
9-2-1.  Two (/2 slots.
*9-5-1.  Boxed-slot impedance.
*9-5-1.  continued
*9-5-2.  Boxed slot.
9-5-3.  Open-slot impedance.
9-7-1.  50 and 100 ( patches.
9-7-3.  Microstrip line.
9-7-3.  continued
*9-9-1.  Optimum horn gain.
*9-9-1.  continued
9-9-2.  Horn pattern.
9-9-2.  continued
9-9-3.  Rectangular horn antenna.
9-9-4.  Conical horn antenna.
9-9-5.  Pyramidal horn.
9-9-5.  continued
10-2-1.  Flat sheet reflector.
10-2-1.  continued
10-3-1.  Square-corner reflector.
10-3-2.  Square-corner reflector.
continued
*10-3-4.  Square-corner reflector.
*10-3-4.  continued
10-3-5.  Square-corner reflector versus array of its image elements.
*10-3-6.  Square-corner reflector array.
*10-3-6.  continued
*10-3-6.  continued
*10-3-6.  continued
10-3-7.  Corner reflector.  (/4 to the driven element.
10-3-8.  Corner reflector.  (/2 to the driven element.
10-3-8.  continued
10-3-8.  continued
*10-7-2.  Parabolic reflector with missing sector.
*11-2-2.  The 2( cone.
11-5-1.  Log spiral.
11-5-1.  continued
R
11-7-1.  Log periodic.
11-7-2.  Stacked LPs.
11-7-2.  continued
11-7-2.  continued
*12-2-1.  Antenna temperature.
*12-2-2.  Earth-station antenna temperature.
*12-3-4.  Satellite TV downlink.
*12-3-5.  System temperature.
*12-3-5.  continued
12-3-6.  System temperature.
*12-3-7.  Solar interference to earth station.
*12-3-7.  continued
*12-3-9.  Critical frequency. MUF.
*12-3-9.  continued
12-3-10.  mUF for Clarke-orbit satellites.
12-3-10.  continued
*12-3-11.  Minimum detectable temperature.
12-3-12.  Minimum detectable temperature.
*12-3-13.  Interstellar wireless link.
*12-3-14.  Backpacking penguin.
*12-3-17.  Low earth orbit communications satellite.
*12-3-17.  continued
*12-3-18.  Direct broadcast satellite (DBS).
*12-3-18.  continued
*12-3-18.  continued
12-3-19.  Simplified expression for C/N.
12-3-22.  Galileo’s uncooperative antenna.
*12-4-1.  Antenna temperature with absorbing cloud.
*12-4-1.  continued
12-4-3.  Forest absorption.
*12-4-4.  Jupiter signals.
12-5-1.  Radar detection
*12-5-3.  RCS of electron.
*12-5-3.  continued
*12-5-5.  Detecting one electron at 10 km.
12-5-6.  Effect of resonance on radar cross section of short dipoles.
12-5-6.  continued
*12-5-12  Fastball velocity.
*12-5-13.  Radar power for fastball measurement.
*12-5-13.  continued
*12-5-14.  Anticollision radar.
*12-5-18.  Police radar.
*12-5-18.  continued
*12-5-20.  Sea clutter.
*12-5-20.  continued
*13-4-1.  A 5(/2 antenna.
13-6-1.  Parallel side-by-side (/2 antennas.
13-6-1.  continued
*13-6-3.  Three side-by-side antennas.
13-8-1.  Two (/2 antennas in echelon.
14-10-1.  Charge distribution.
14-12-2.  (/10 dipole impedance.
*15-3-1.  Pattern smoothing.
15-6-1.  Number of elements.
*16-2-1.  Two (/2-element broadside array.
*16-2-1.  continued
16-3-1.  Two (/2-element end-fire array.
16-3-1.  continued
*16-3-2.  Impedance and gain of 2-element array.
16-4-3.  Two-element array with unequal currents.
16-4-3.  continued
*16-6-1.  Impedance of D-T array.
16-6-3.  Square array.
16-6-3.  continued
*16-6-4.  Seven short dipoles. 4-dB angle.
*16-6-4.  continued
16-6-5.  Square array.
*16-6-7.  Sixteen-source broadside array.
*16-6-7.  continued
*16-6-7.  continued
*16-8-6.  Four-tower broadcast array.
*16-8-6.  continued
16-10-1.  Eight-source scanning array.
16-10-1.  continued
*16-16-1.  Terminated V.  Traveling wave.
*16-16-2.  E-type rhombic.
16-16-3.  Alignment rhombic.
*16-16-4.  Compromise rhombic.
*16-16-4.  continued
16-16-5.  Compromise rhombic.
*16-16-6.  Compromise rhombic.
17-2-1.  Dielectric lens.
R
17-2-1.  continued
17-3-1.  Artificial dielectric.
17-3-1.  continued
*17-4-1.  Unzoned metal-plate lens.
*17-4-1.  continued
18-9-1.  Unloaded tripole.
18-9-2.  Four-Legged loaded element.
continued
*19-1-3.  Efficiency of rectangular aperture with partial taper.
*19-1-4.  Efficiency of rectangular aperture with full taper.
19-1-5.  Efficiency of aperture with phase ripple.
19-1-5.  continued
19-1-5.  continued
E
19-1-5.  continued
*19-1-6.  Rectangular aperture.  Cosine taper.
*19-1-6.  continued
19-1-7.  Rectangular aperture.  Cosine tapers.
19-1-7.  continued
*19-1-8.  A 20( line source.  Cosine-squared taper.
*19-1-8.  continued
21-4-2.  Horizontal dipole above imperfect ground.
21-9-1.  Square loop.
*21-9-3.  DF and monopulse.
*21-9-3.  continued
*21-10-1.  Overland TV for HP, VP and CP.
*21-12-1.  Signaling to submerged submarines.
*21-13-1.  Surface-wave powers.
21-13-2.  Surface-wave powers.
*21-13-3.  Surface-wave power.
*21-13-3.  continued
21-13-4.  Surface-wave current sheet.
*21-13-6.  Coated-surface wave cutoff.
23-3-1.  Balun 200 (, antenna 70 (.
23-3-1.  continued
23-3-1.  continued
23-3-5  Stub impedance.
23-3-5  continued
24-3-1.  Uncertainty of pattern measurement due to reflected wave.
24-3-2.  Range length requirement due to allowed phase curvature.
continued
24-4-1.  Design of elevated range.
24-4-1.  continued
24-4-2.  Time required for near-field scanning.
24-5-1.  Power requirement for certain dynamic range.
24-5-1.  continued
24-5-2.  Gain measurement using three unknown antennas.
24-5-2.  continued
24-5-3.  Gain measurement using celestial radio source.
24-5-4.  Impedance in laboratory.
24-5-4.  continued




نظرات کاربران