RF Cafe - Mechanical Conversions, Formulas & References
◊◊ General Conversions, Formulas & References ◊◊ These pages pr...
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RF Cafe - Mechanical Conversions, Formulas & References
◊◊ General Conversions, Formulas & References ◊◊ These pages present a great deal of data in the form of conversions, formulas and references. I am confident that this is the most comprehensive and diverse presentation of topics on a single web site. Click here for a link to NIST's Reference on Constants, Units and Uncertainty. ● ● ●
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Area ASCII Characters Bolts, Nuts & Washers Metric Bolts, Nuts & Washers SAE Carnot Cycle Coefficient of Expansion Density Conversions Drill Sizes - Lettered Drill Sizes - Numbered Electrochemical Potentials Force Galvanic Series General Constants General Units Greek Alphabet
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IC Heat Transfer IC Lifetime Acceleration Laws of Motion Laws Of Thermodynamics Length Conversions Mass Conversions Materials Properties Mechanical Constants Mechanical Units Periodic Table Phonetic Alphabet Pressure Conversions Psychometric Chart P-T Diagram Relativity
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Solar System Sound Levels Sound Power Speed Conversions Tap & Drill - Metric Tap & Drill - SAE Temperature Conversions Thermal Conductivity Time Conversions
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Torx Heads
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Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general.htm [4/1/02 12:29:47 AM]
Thermal Conductivity Ultrasonic Frequency Chart Visible Light Volume Conversions Work-Energy-Heat Conversions World Time Zone Map
RF Cafe - Electrical Conversions, Formulas & References
◊◊ Electrical Conversions, Formulas & References ◊◊ These pages present a great deal of data in the form of conversions, formulas and references. I am confident that this is the most comprehensive and diverse presentation of topics on a single web site. Note: "#" indicates that an interactive calculator is on the Electrical Calculations page. Click here for a link to NIST's Reference on Constants, Units and Uncertainty. ●
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A/D Converter Parameters ABCD, S, H, Y, Z Parameters AC Voltage & Frequency Worldwide Standards Amplitude Modulation Atmospheric Absorption Atmospheric Refraction Antenna Basics Antenna Radiation Patterns Attenuators (Fixed)# Ball Grid Array (BGA) Counter Batteries Battery Outlines Bessel Function Plots Bit Error Rate Boolean Algebra Capacitance Capacitance Conversions
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Cascade Budget Calculation# Charge Conversions Circulators Coaxial Cable Chart Coaxial Cable Equations Coaxial Connectors Coaxial Connector Torque Specs Color Codes Communications Standards Compression Point, 1 dB Conductors @ High Frequencies
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Copper Facts
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Current Conversions Damped Responses Data Bus Specifications Delta-Wye Detectors Dielectric Constants & Strengths Diplexers Directional Couplers
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Filters# Flip Flop Tables Fourier Series of Periodic Signals Frequency Bands Frequency Modulation Fuse Specs Fuse Package Outline GPIB / HPIB / IEEE488 GSM Timeslot & Frequency Specs History of Communications History of 50 Ω
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Impedance Matching
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Inductance# Inductance Conversions Intercept Points, 2-Tone 2nd-Order Intercept Points, 2-Tone 3rd-Order Isolators Karnaugh Maps Kirchhoff's Law Link Budget Lightning Magnetic Field Conversions Magnetic Flux Conversions Maxwell's Equations Microstrip MIL-STD-1553 & 1773 Bus Morse Code Noise Figure Noise Power Norton Equivalent Ohm's Law Op Amps
http://www.rfcafe.com/references/electrical.htm (1 of 2) [4/1/02 3:53:57 AM]
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Radar Cross Section (RCS) Radar Equation Radar Horizon/Line of Sight Resistance Conversions Resistor Markings: MIL-PRF-55342 Resistor Markings: Std Resistor Values RLC Combinations RMS & Average Power & Voltage Serial Port Pinout S, H, Y, Z, ABCD Parameters Signal-to-Noise Ratio Skin Depth SMD Package Markings Smith Chart Solder Spectral Inversion Spurious-Free Dynamic Range Spurious Calculations TEMPEST Thévénin Equivalent Toroid Cores Transmission Lines Triboelectric Series USB Specifications WAP Waveguide Wire Wireless Communication Specs Wireless Coverage Maps Wireless Data Rate Standards WLAN Specs
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VSWR Mismatch Error#
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VSWR Reduction By Attenuation#
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VSWR / Return Loss / Gamma#
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RF Cafe - Electrical Conversions, Formulas & References ● ● ● ● ● ● ● ● ● ●
Dividers/Combiners Doppler Frequency Shift DTMF Tones EIRP Electrical Constants Electrical Units Electric Fields Electrocution of Human Body Field Intensity ESD
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Op Noise Figure Package Outlines Parallel Port Pinout PCS Web Site PIM - Passive Intermodulation Path Loss Potential Power Density Power Factor Power & Voltage in 50 Ω System Propagation Time Pulse Definition
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/electrical.htm (2 of 2) [4/1/02 3:53:57 AM]
RF Cafe - Calculator Spreadsheets
◊◊ Calculator Spreadsheets ◊◊ Thanks to MS Office Web Components and the advent of XML, including these interactive spreadsheet components is possible, for about the same amount of work as generating an Excel spreadsheet. Click on the following links for access. ●
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Electrical Calculations ❍ Attenuators ("T" and Pi) ❍ Cascaded Components ❍ Cavity Resonant Frequency ❍ Noise Conversions ❍ Voltage Divider ❍ VSWR - RL - Gamma(Γ) Filters ❍ Lowpass Butterworth ❍ Lowpass Chebychev ❍ Highpass Butterworth ❍ Highpass Chebychev ❍ Bandpass Butterworth ❍ Bandpass Chebychev ❍ Bandstop Butterworth ❍ Bandstop Chebychev
NOTE: You must have either FrontPage 2002 or Excel 2002 installed (from MS Office XP) or these spreadsheets will be only static and not interactive. You can purchase an Excel 2002 upgrade for about $100 here.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/_spreadsheets/calculator_list.htm [4/1/02 3:54:57 AM]
RF Cafe - Mathematical References
◊◊ Mathematical References ◊◊ Here are some of the most often need mathematical entities, all in one convenient place. ● ● ● ● ● ● ● ● ● ●
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Averages Bessel Functions Coordinate Systems Derivatives, Basic Deviations Differentiation Rules Exponents Fourier Series Fourier Transform Pairs Fourier Series Properties Imaginary Numbers Integrals, Basic Integrals, Inverse Trig Integrals, Natural Log Integrals, Square Root Integrals, Trigonometric
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LaPlace Transform Pairs LaPlace Transform Properties Logarithms Matrix Algebra Matrix Definitions Numerical Prefixes Partial Fractions Permutations & Combinations Phi (φ) - the Golden Number Plane Angle Series Expansions Summations
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/mathematical.htm [4/1/02 3:59:00 AM]
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Trig Identities Trig Identities, Inverse Trig Identities, Hyperbolic Trig Identities, Inv Hyperbolic
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Trigonometry Laws Uncertainties Vector, Curl Vector, Divergence Vector, Gradient
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z-Transform Properties
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RF Cafe - Area Conversion
◊◊ AREA CONVERSIONS ◊◊ Standard units = Square centimeter (cm2).
1 in2 = 1 ft2 = 1 cm2 = 1 m2 = 1 cir mil =
square in 1 144 0.1550 1550 7.854 ·
10-7
square ft 6.944 · 10-3 1 1.076 · 10-3 10.76 5.454 ·
10-3
square cm 6.452 929.0 1 104 5.067 · 10-6
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/area.htm [4/1/02 12:30:31 AM]
square m 6.452 · 10-4 9.290 · 10-2 10-4 1 5.067 · 10-10
circular mil 1.273 · 106 1.833 · 108 1.974 · 105 1.974 · 109 1
RF Cafe - ASCII Character Set
◊◊ ASCII CHARACTER SET ◊◊ 33
!
34
"
35
#
36
$
37
40
(
41
)
42
*
43
+
44
,
45
38
&
39
'
-
46
.
47
/
48
0
49
1
50
2
51
3
52
4
56
8
57
9
58
:
59
;
60
63
?
64
@
65
A
66
B
67
C
68
D
72
H
73
I
74
J
75
K
76
L
69
E
70
F
71
G
77
M
78
N
79
O
80
P
81
Q
82
R
83
S
84
T
88
X
89
Y
90
Z
91
[
92
85
U
86
V
87
W
93
]
94
^
95
_
96
`
97
a
98
b
99
c
100
d
101
e
102
f
103
g
104
h
105
i
106
j
107
k
108
l
109
m
110
n
111
o
112
p
113
q
114
r
115
s
116
t
117
u
118
v
119
w
120
x
121
y
122
z
123
{
124
|
125
}
126
~
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/ascii.htm [4/1/02 12:37:35 AM]
RF Cafe - Metric Nuts & Bolts
◊◊ Metric Bolts, Nuts & Washers ◊◊
Size
Tap Drill (mm)
Clearance Drill (mm)
Counter Bore (mm)
Nut Points (mm)
Nut Flats (mm)
Washer I.D. (mm)
Washer O.D. (mm)
M1
0.75
1.10
0.30
2.08
1.8
1.0
2.0
M1.6
1.25
1.85
0.35
3.70
3.2
1.7
3.4
M2
1.60
2.40
0.40
4.62
4.0
2.2
4.5
M2.5
2.05
3.10
0.45
5.77
5.0
2.7
5.5
M3
2.50
3.75
0.50
6.35
5.5
3.2
6.0
M3.5
2.90
4.30
0.60
6.93
6.0
4.0
7.8
M4
3.30
4.90
0.70
8.08
7.0
4.3
8.0
M5
4.20
6.30
0.80
9.24
8.0
5.3
10
M6
5.00
7.50
1.0
11.5
10
6.4
11
M8
6.75
10.0
1.25
15.0
13
8.4
15
M10
8.50
12.5
1.50
17.3
15
11.5
21
1) See Drill Sizes page for cross reference. 2) Nut Points is the distance between opposite corners of hex nuts. 3) Nut Flats is the distance between opposite sides of hex nuts.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/bolts_nuts_washers_metric.htm [4/1/02 12:39:34 AM]
RF Cafe - SAE Bolts
◊◊ SAE Bolts, Nuts & Washers ◊◊
Size & Threads/lnch
Series Designation
Tap Drill
Clearance Drill
Counter Bore
Nut Points
Nut Flats
Washer I.D.
Washer O.D.
0-80
UNF
0.046
0.070
1/8
0.180
0.156
0.078
0.187
1-64
UNC
0.059
0.089
5/32
0.180
0.156
0.099
0.250
1-72
UNF
2-56
UNC
0.070
0.104
3/16
0.217
0.187
0.099
0.250
2-64
UNF
3-48
UNC
0.078
0.120
3/16
0.217
0.187
0.105
0.250
3-56
UNF
4-40
UNC
0.089
0.136
7/32
0.289
0.250
0.125
0.312
4-48
UNF
5-40
UNC
5-44
UNF
6-32
UNC
0.106
0.161
9/32
0.361
0.312
0.149
0.375
6-40
UNF
8-32
UNC
0.136
0.189
5/16
0.397
0.343
0.174
0.375
8-36
UNF
10-24
UNC
0.149
0.213
11/32
0.433
0.375
0.203
0.437
10-32
UNF
12-24
UNC 0.201
0.281
7/16
0.505
0.437
0.265
0.500
12-28
UNF
1/4-20
UNC
1/4-28
UNF
5/16-18
UNC
5/16-24
UNF
3/8-16
UNC
3/8-24
UNF
7/16-14
UNC
7/16-20
UNF
1/2-13
UNC
1/2-20
UNF
9/16-12
UNC
9/16-18 5/8-11 5/8-18 3/4-10 3/4-16
UNF UNC UNF UNC UNF
http://www.rfcafe.com/references/general/bolts_nuts_washers_sae.htm (1 of 2) [4/1/02 12:40:15 AM]
RF Cafe - SAE Bolts 7/8-9 7/8-14 1-8 1-12 1-14
UNC UNF UNC UNF UN
11/8-7 11/8-8 11/8-12 11/4-7 1114-8
UNC UN UNF UNC UN
11/4-12 1 3/8-6 1 3/8-8 1 3/8-12 11/2-6
UNF UNC UN UNF UNC
1 1/2-8 1 1/2-12 1 5/8-8 1 3/4-5 1 3/4-8
UN UNC UN UNC UN
1 7/8-8 2-4 1/2 2-8 2 1/4-4.5 2 1/4-8
UN UNC UN UNC UN
2 2 2 2
1/2-4 1/2-8 3/4-4 3/4-8 3-4
UNC UN UNC UN UNC
3-8 1/4-4 1/4-8 1/2-4 1/2-8
UN UNC UN UNC UN
3 3/4-4 3 3/4-8 4-4 4-8
UNC UN UNC UN
3 3 3 3
1) See Drill Sizes page for cross reference. 2) Nut Points is the distance between opposite corners of hex nuts. 3) Nut Flats is the distance between opposite sides of hex nuts.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
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RF Cafe - Carnot Cycle
◊◊ Carnot Cycle ◊◊ An ideal cycle would be performed by a perfectly efficient heat engine—that is, all the heat would be converted to mechanical work. A 19th-century French scientist named Nicolas Carnot conceived a thermodynamic cycle that is the basic cycle of all heat engines. He showed that such an ideal engine cannot exist. Any heat engine must expend some fraction of its heat input as exhaust. The second law of thermodynamics places an upper limit on the efficiency of engines; that upper limit is less than 100 percent. The limiting case is now known as a Carnot cycle.
The Carnot Cycle
(1) Isothermal expansion of gas in cylinder as heat is (2) Heat source is removed and isolated. Adiabatic added from source. Piston moves from V1 to V2, expansion continues until volume V3 is reached, doing work on the system. performing additional work, at temperature T2.
http://www.rfcafe.com/references/general/carnot_cycle.htm (1 of 2) [4/1/02 12:43:55 AM]
RF Cafe - Carnot Cycle
(4) Heat source is removed and isolated. Adiabatic
(3) Isothermal compression of gas in cylinder as
compression continues until volume V4 is reached, performing additional work, at temperature T2.
work is done by the system on the piston. Heat is be transferred to T2.
Isothermal: Process in which no temperature change occurs in a closed system.
Adiabatic: Process in which no heat is transferred into or out of a closed system.
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RF Cafe - Properties of Materials
◊◊ Materials Properties ◊◊ MatWeb
Substance
Melting Temperature (ºC)
Alanx CG8963.32
Density (g/cm3)
Thermal Conductivity (W/m·K)
Thermal Expansion (10-6 K)
Resistivity (µΩ·cm)
32.2
6.5
1020
238
23.5
2.67
215
7.5
1020
3.32
Alcohol, Ethyl Al2O3
Alumina,
2040
3.9
Alumina, 85%
3.41
Alumina, 90%
3.6
Alumina, 94%
3.7
Alumina, 96%
3.75
Alumina, 99%
3.9
Alumina, 99.5%
3.89
Alumina, 99.9%
3.96
Aluminosilicate Aluminum,
Pure 11 5056
2.6 660.1
2.643
Aluminum, 2024-T3
2.77
Aluminum, 6061-T6
2.7
Aluminum, 7079-T6
2.74
Aluminum bronze
7.702
Aluminum Nitride
3.25
Benzene
0.737
Beryllium, QMV Beryllia,
BeO
Beryllium
1.85 2550
2.85 1.8477
Birch
0.705
Boron Carbide
2.5
Borosilicate Glass
2.3
Brass
8.553
Bronze, ~11% Tin
8.1
Bronze, aluminum
7.702
Bronze,
phosphor
8.8
Carbon Steel
7.84
Carbon Tool Steel
7.82
Carbon-Carbon Composite
1.65
Cherry
0.433
http://www.rfcafe.com/references/general/materials_properties.htm (1 of 4) [4/1/02 12:51:17 AM]
RF Cafe - Properties of Materials Coal, Anthracite
1.554
Coal, Bituminous
1.346
Coal, Coke
1.201
Coal, Lignite
1.25
Cobalt
8.8
Concrete Copper
1083.4
8.96
Copper Ore, pyrites
4.197
Copper, cast-rolled
8.906
Copper, Pure
1.694
3.6
1020
14.1
2.20
8.9
Corundum-Crystal Form Delrin (acetyl resin)
17.0
3.99 175
8.96
Ethyl Alcohol
0.802
Gasoline
0.721
German Silver
8.586
Glass
2.6
Glass, Pyrex Gold, 99.99% Gold Coin (US) Gold, cast-hammered
1063
19.3
315.5
17.19 19.3
Graphite
2.163
Hafnium Carbide
12.76
HDPE
0.955
High Speed Tool Steel
8.75
Ice
0.897
Iridium
22.16
Iron Iron, Cast, Pig
7.207
Iron, Ferrosilicon
6.984
Iron, gray cast
7.079
Iron Ore, Hematite
5.206
Iron Ore, Limonite
3.796
Iron Ore, Magnetite
5.046
Iron Slag
2.755
Iron, Spiegeleisen
7.496
Iron, wrought
7.658
Kevlar Kevlar 149
1.47
Kevlar 29
1.44
Kevlar 49
1.44
Lead
11.37
Lead Glass
2.8
Lead Ore, Galena
7.449
Leather, common
0.945
Magnesium, Pure
1.7
Mahogany
0.705
http://www.rfcafe.com/references/general/materials_properties.htm (2 of 4) [4/1/02 12:51:17 AM]
RF Cafe - Properties of Materials Manganese
7.608
Manganese Ore
4.149
Mercury
13.57
Methyl Alcohol
0.809
Mg-PSZ
5.75
Mineral Oil
0.914
Molybdenum, wrought
10.3
Monel Metal, rolled
8.688
Mullite
2.82
Nickel
1455
Nickel, Pure
8.602
88
13.3
6.9
138
7.6
105
8.9
Nitride-Bonded SiC
2.54
Paper
0.929
Paraffin
0.898
Petroleum, Crude Pig Iron
7.207
Platinum
21.3
Plutonium, alpha phase
19.35
Polyurethane
1
PSZ
5.75
Pure Iron
7.86
Pyrolusite, Mn Ore
4.149
Quartz Glass
2.2
RB-SiC
3.09
Red Oak
0.673
Refrax
2.54
RT/Duriod 5880 Rubber
1.506
Sapphire
3.99
SiAlON Silica,
3.3 SiO2
Silicon
1412
2.34
Silicon carbide
3.2
Silicon Nitride
3.28
Silver, Cast-hammered
10.51
Silver, Pure
10.5
Sintered SiC
3.1
SNBSN / Refrax
2.54
Soft Steel (0.06% C)
7.87
Southern Pine
0.65
Stainless 18Cr-8Ni
8.03
Stainless 27Cr
7.47
Stainless Steel, 304
8.03
Steel, C1020, HR
7.85
Steel, cold-drawn
7.83
Steel, tool
7.715
http://www.rfcafe.com/references/general/materials_properties.htm (3 of 4) [4/1/02 12:51:17 AM]
RF Cafe - Properties of Materials Sugar Maple
0.689
Tantalum
16.6
Thorium, Ind. melted
11.6
TiC
4.94
Tin Ore, cassiterite
6.695
Tin, cast-hammered
7.352
Titanium
4.5
Titanium, B 120VCA Tungsten Tungsten Tungsten Carbide
4.85 3400
19.3 18.82 15.7
Uranium
18.74
Uranium D38
18.97
Vanadium Carbide
5.71
Vegetable Oil
0.93
Walnut
159
0.593
Water Water, 100 °C Water, 4 °C
0.9581 0.99997
Water, Ice
0.897
Water, Seawater
1.025
WC / Tungsten Carbide
15.7
Wood, Oak Zinc Ore, blende
4.052
Zinc, Cast
7.049
Zirconia Zirconium Zirconium Carbide
5.75 6.3798 6.56
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
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4.5
5.5
RF Cafe - Density Conversion
◊◊ Density Conversions ◊◊ Standard units = Kilograms per square meter (kg/m2).
1 lb/in3 1 lb/ft3 1 slug/ft3 1 g/cm3 1 kg/m3
lb per in3 1 5.787 1.862 3.613 3.613
* * * *
10-4 10-2 10-2 10-5
lb per ft3 1728 1 32.17 62.43
slug per ft3 53.71
g per cm3 27.68
3.108 * 10-2 1 1.940
6.243 * 10-2
1.940 * 10-3
1.602 * 10-2 0.5154 1 0.001
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/density.htm [4/1/02 12:53:17 AM]
kg per m3 2.768 * 104 16.02 515.4 1000 1
RF Cafe - Lettered Drill Sizes
◊◊ DRILL SIZES: LETTERED ◊◊ Letter
Diameter (in)
Letter
Diameter (in)
A
0.234
N
0.302
B
0.238
O
0.316
C
0.242
P
0.323
D
0.246
Q
0.332
E
0.250
R
0.339
F
0.257
S
0.348
G
0.261
T
0.358
H
0.266
U
0.368
I
0.272
V
0.377
J
0.277
W
0.386
K
0.281
X
0.397
L
0.290
Y
0.404
M
0.295
Z
0.413
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RF Cafe - Numbered Drill Sizes
◊◊ DRILL SIZES: NUMBERED ◊◊
Number
Diameter (in)
Number
Diameter (in)
Number
Diameter (in)
Number
Diameter (in)
1
0.2280
21
0.1590
41
0.0960
61
0.0380
2
0.2210
22
0.1570
42
0.0935
62
0.0370
3
0.2130
23
0.1540
43
0.0890
63
0.0360
4
0.2090
24
0.1520
44
0.0869
64
0.0350
5
0.2055
25
0.1495
45
0.0820
65
0.0330
6
0.2040
26
0.1470
46
0.0810
66
0.0320
7
0.2010
27
0.1440
47
0.0785
67
0.0310
8
0.1990
28
0.1405
48
0.0760
68
0.0300
9
0.1960
29
0.1360
49
0.0730
69
0.0290
10
0.1935
30
0.1285
50
0.0700
70
0.0270
11
0.1910
31
0.1200
51
0.0670
71
0.0260
12
0.1890
32
0.1160
52
0.0635
72
0.0240
13
0.1850
33
0.1130
53
0.0595
73
0.0230
14
0.1820
34
0.1110
54
0.0550
74
0.0220
15
0.1800
35
0.1100
55
0.0520
75
0.0200
16
0.1770
36
0.1065
56
0.0465
76
0.0180
17
0.1730
37
0.1040
57
0.0430
77
0.0160
18
0.1695
38
0.1015
58
0.0420
78
0.0150
19
0.1660
39
0.0995
59
0.0410
79
0.0140
20
0.1610
40
0.0980
60
0.0400
80
0.0130
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RF Cafe - Electrochemical Potentials
◊◊ Electrochemical Potentials ◊◊ the "X" metal is attacked the contact is practically neutral the "Y" metal is attacked
This table presents the electrochemical potential difference (in mV) for pairs of common metal alloys, when in the presence of water with 2% salt content. \
\
\
\
Y
X \
\
Platinum
0
Gold/Carbon 130
130
250
340
350
430
450
570
600
685
700
770
800
840
940 1000 1090 1100 1200 1400 1470 1950
0
110
210
220
300
320
440
470
535
570
640
670
710
810
870
960
970 1070 1270 1340 1620
Stainless Steel
250
110
0
90
100
160
200
320
350
415
450
520
550
590
690
750
840
850
950 1150 1220 1700
Titanium
340
210
90
0
10
90
110
230
260
325
360
430
460
500
600
680
750
760
860 1060 1150 1610
SilverMercury
350
220
100
10
0
80
100
220
250
315
350
420
450
490
590
650
740
750
850 1050 1120 1600
Nickel
430
300
180
90
80
0
20
140
170
235
270
340
370
410
510
570
650
670
770
970 1040 1520
Copper Alloy
450
320
200
110
100
20
0
120
150
215
250
320
350
390
490
530
640
650
750
950 1020 1500
Copper
570
440
320
230
220
140
120
0
30
95
130
200
230
270
370
430
520
530
630
830
900 1380
AluminumBronze Brass 30% Zinc
600
470
350
260
250
170
150
30
0
65
100
170
200
240
340
400
490
500
600
800
870 1350
Silicon
665
535
415
325
315
235
215
95
65
0
35
105
135
175
275
335
425
435
535
735
805 1285
Brass 50% Zinc
700
520
520
360
350
270
250
130
100
35
0
70
100
140
240
300
390
400
500
700
770 1250
Bronze
770
640
550
430
420
340
320
200
170
105
70
0
30
70
170
230
320
330
435
630
700 1180
Tin
800
670
590
460
450
370
350
230
200
135
100
30
0
40
140
200
290
300
400
600
670 1150
Lead
840
710
680
500
490
410
390
270
240
175
140
70
40
0
100
160
250
260
300
560
630 1110
http://www.rfcafe.com/references/general/electrochemical_potential.htm (1 of 2) [4/1/02 1:10:03 AM]
RF Cafe - Electrochemical Potentials
Light alloy NSA 3001
810
690
600
590
510
490
370
340
275
240
170
140
100
0
60
150
160
260
460
530 1010
Steels
1000 870
750
660
650
570
550
430
400
335
300
230
200
160
60
0
90
150
200
400
470
950
Aluminum A5
1090 960
840
750
740
650
640
520
490
425
390
320
290
250
150
90
0
100
110
310
380
860
Cadmium
1100 970
850
760
750
670
650
530
500
435
400
330
300
260
160
150
100
0
100
300
370
850
Chromium 1200 1070 950
860
850
770
750
630
600
535
500
430
400
360
260
200
110
100
0
200
270
750
1400 1270 1150 1050 1050 970
950
830
800
735
700
630
600
560
460
400
310
300
200
0
70
550
Manganese 1470 1340 1220 1150 1120 1040 1020 900
870
805
770
700
670
630
530
470
380
370
270
70
0
480
Magnesium 1950 1620 1700 1610 1600 1520 1500 1380 1350 1285 1250 1180 1150 1110 1010 950
860
850
750
550
480
0
Zinc
940
Values obtained from 1997 Huber+Suhner "RF Connector Guide"
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RF Cafe - Force Conversion
◊◊ FORCE CONVERSIONS ◊◊ Standard units = Newton (N).
1 dyn = 1N= 1 lb = 1 pdl = 1 gf = 1 kgf =
dyne 1 105 4.448 * 105 1.383 * 104 980.7 9.807 * 105
newton 10-5 1 4.448 0.1383 10-3
9.807 * 9.807
pound 2.248 * 10-6 0.2248 1 3.108 * 10-2 2.205 * 10-3 2.205
poundal 7.233 * 10-5 7.233 32.17 1 7.093 * 70.93
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10-2
gram force 1.020 * 10-3 102.0 453.6 14.10 1 1000
kg force 1.020 * 10-6 0.1020 0.4536 1.410 * 10-2 0.001 1
RF Cafe - Galvanic Series
◊◊ GALVANIC SERIES ◊◊ A galvanic series table lists metals in the order of their relative activity in a specific environment. The list begins with the more active (anodic) metal and proceeds down the to the least active (cathodic) metal of the galvanic series. A "galvanic series" applies to a particular electrolyte solution, so for each specific solution which is expected to be encountered for actual use, a different order or series will ensue. In a galvanic couple, the metal higher in the series (or the smaller) represents the anode, and will corrode preferentially in the environment. This is the "dissimilar metals" corrosion that is spoken of. Listed below is the latest galvanic table from MIL-STD-889 where the materials have been numbered according to how they interact in a galvanic couple in a seawater environment. The table is the galvanic series of metals in sea water from Army Missile Command Report RS-TR-67-11, "Practical Galvanic Series."
Most Anodic (#1) 1. Magnesium 2. Mg alloy AZ-31B 3. Mg alloy HK-31A 4. Zinc (hot-dip, die cast, 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25.
or plated) Beryllium (hot pressed) Al 7072 clad on 7075 Al 2014-T3 Al 1160-H14 Al 7079-T6 Cadmium (plated) Uranium Al 218 (die cast) Al 5052-0 Al 5052-H12 Al 5456-0, H353 Al 5052-H32 Al 1100-0 Al 3003-H25 Al 6061-T6 Al A360 (die cast) Al 7075-T6 Al 6061-0 Indium Al 2014-0 Al 2024-T4
26. Al 5052-H16 27. Tin (plated) 28. Stainless steel 430
51. Brass (plated) 52. Nickel-silver (18% Ni) 53. Stainless steel 316L
29. 30. 31. 32.
54. 55. 56. 57.
33. 34. 35. 36. 37. 38. 39. 40. 41. 42. 43. 44. 45. 46. 47. 48. 49. 50.
(active) Lead Steel 1010 Iron (cast) Stainless steel 410 (active) Copper (plated, cast, or wrought) Nickel (plated) Chromium (Plated) Tantalum AM350 (active) Stainless steel 310 (active) Stainless steel 301 (active) Stainless steel 304 (active) Stainless steel 430 (active) Stainless steel 410 (active) Stainless steel 17-7PH (active) Tungsten Niobium (columbium) 1% Zr Brass, Yellow, 268 Uranium 8% Mo Brass, Naval, 464 Yellow Brass Muntz Metal 280
58. 59. 60. 61. 62. 63. 64. 65. 66. 67. 68. 69. 70. 71. 72. 73. 74. 75.
(active) Bronze 220 Copper 110 Red Brass Stainless steel 347 (active) Molybdenum, Commercial pure Copper-nickel 715 Admiralty brass Stainless steel 202 (active) Bronze, Phosphor 534 (B-1) Monel 400 Stainless steel 201 (active) Carpenter 20 (active) Stainless steel 321 (active) Stainless steel 316 (active) Stainless steel 309 (active) Stainless steel 17-7PH (passive) Silicone Bronze 655 Stainless steel 304 (passive) Stainless steel 301 (passive) Stainless steel 321 (passive) Stainless steel 201 (passive) Stainless steel 286 (passive)
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Most Cathodic (#92) 76. Stainless steel 316L (passive)
77. AM355 (active) 78. Stainless steel 202 79. 80. 81. 82. 83. 84. 85. 86. 87. 88. 89. 90. 91. 92.
(passive) Carpenter 20 (passive) AM355 (passive) A286 (passive) Titanium 5A1, 2.5 Sn Titanium 13V, 11Cr, 3Al (annealed) Titanium 6Al, 4V (solution treated and aged) Titanium 6Al, 4V (anneal) Titanium 8Mn Titanium 13V, 11Cr 3Al (solution heat treated and aged) Titanium 75A AM350 (passive) Silver Gold Graphite
RF Cafe - Galvanic Series
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RF Cafe - General Constants
◊◊ GENERAL CONSTANTS ◊◊ * : Reduced Planck constant,
= h/2π
Name
Symbol
Value
Speed of light (in vacuum)
c
2.9979 * 108 m/s
Mass-energy ratio
c2
8.9876 * 1016 J/kg
Gravitational constant
G
6.6720 * 10-11 N*m2/kg2
"
G
3.4490 * 10-8 lb * ft2/slug2
Universal gas constant
R
8.3144 J/(mol * K)
Avogadro constant
N0
6.0220 * 1023 molecules/mol
Boltzmann constant
k
1.3807 * 10-23 J/K
Planck constant*
h
6.6262 * 10-34 J * s
Electron rest mass
me
9.1095 * 10-31 kg
Proton rest mass
mp
1.6726 * 10-27 kg
Bohr radius
aB
0.52918 Å
Volume of ideal gas (@STP)
V
2.2414 * 10-2 m3/mol
Stefan Boltzmann constant
s
5.6703 * 10-8 W/(m2 * K4)
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RF Cafe - General Units
◊◊ GENERAL UNITS ◊◊ Name
Base Unit
Symbol
Enthalpy
joule
H
Entropy
joule/Kelvin
S
Heat capacity
joule/Kelvin
C
Internal energy
joule
U
Luminous intensity
candela
I
Quantity of heat
joule
Q
Radiant energy
joule
W
Radiant intensity
watt/steradian
I
Radiant power (flux)
watt
P
Sound intensity
watt/meter
I
Sound energy flux
watt
W
Specific heat capacity
joule/(kilogram * Kelvin)
c
Speed of sound
meter/second
n
Thermal conductivity
watt/(meter * Kelvin)
l
Time Constant
s
τ
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RF Cafe - Greek Alphabet
◊◊ GREEK ALPHABET ◊◊ Alpha
Α
α
Nu
Ν
ν
Beta
Β
β
Xi
Ξ
ξ
Gamma
Γ
γ
Omicron
Ο
ο
Delta
∆
δ
Pi
Π
π
Epsilon
Ε
ε
Rho
Ρ
ρ
Zeta
Ζ
ζ
Sigma
Σ
σ
Eta
Η
ε
Tau
Τ
τ
Theta
Θ
θ
Upislon
Υ
υ
Iota
Ι
ι
Phi
Φ
φ
Kappa
Κ
κ
Chi
Χ
χ
Lambda
Λ
λ
Psi
Ψ
ψ
Mu
Μ
µ
Omega
Ω
ω
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RF Cafe - Heat Transfer of an Integrated Circuit
◊◊ HEAT TRANSFER OF AN INTEGRATED CIRCUIT ◊◊
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RF Cafe - Lifetime Acceleration of Integrated Circuit
◊◊ LIFETIME ACCELERATION OF AN INTEGRATED CIRCUIT ◊◊ Arrhenius Model for Integrated Circuits F=
Where:
x1 x2
= eα {Lifetime Acceleration Factor}
x1 = Failure rate at junction temperature T1 x2 = Failure rate at junction temperature T2 T = Junction temperature in degrees K E = Thermal activation energy in eV k = Boltzmann's constant
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RF Cafe - Laws of Motion
LAWS OF MOTION Translational motion with constant acceleration in the x-plane.
Rotational motion with constant acceleration in the θ-plane.
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RF Cafe - Laws of Thermodynamics
LAWS OF THERMODYNAMICS Thermodynamics is the field of physics that describes and correlates the physical properties of macroscopic systems of matter and energy by relating such qualities temperature, pressure, and volume. It also takes in energy, heat, and work. When a physical system moves from one state of equilibrium to another, a thermodynamic process is said to take place. The laws of thermodynamics were discovered in the 19th century through painstaking experimentation. First Law
Zeroth Law When each of two systems is in equilibrium with a third, the first two systems must be in equilibrium with each other. This shared property of equilibrium is the temperature. The concept of temperature is based on this Zeroth Law.
Because energy cannot be created or destroyed (with the special exception of nuclear reactions) the amount of heat transferred into a system plus the amount of work done on the system must result in a corresponding increase of internal energy in the system. Heat and work are mechanisms by which systems exchange energy with one another.
Second Law Entropy—that is, the disorder—of an isolated system can never decrease. Therefore, when an isolated system achieves a configuration of maximum entropy, it can no longer undergo change (it has reached equilibrium).
Additionally, it is not enough to conserve energy and thus obey the First Law. A machine that would deliver work while This First Law of violating the second law is thermodynamics identifies called a "perpetual-motion caloric, or heat, as a form machine of the second of energy. kind." In such a system, energy could then be continually drawn from a cold environment to do work in a hot environment at no cost.
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Third Law The Third Law of thermodynamics states that absolute zero cannot be attained by any procedure in a finite number of steps. Absolute zero can be approached arbitrarily closely, but it can never be reached.
RF Cafe - Length Conversion
◊◊ LENGTH CONVERSIONS ◊◊ Standard units = Meter (m). inch
foot
mile
10-2
centimeter
10-5
2.540
meter 10-2
kilometer 2.540 * 10-5
1 in =
1
1 ft =
12
1
1.894 * 10-4
30.48
0.304 8
3.048 * 10-4
1 mi =
6.336 * 104
5 280
1
1.609 * 105
160 9
1.609
1 cm =
0.393 7
3.281 * 10-2
6.214 * 10-6
1
10-2
10-5
1m=
39.37
3.281
6.214 * 10-4
100
1
10-3
1 km =
3.93 7 * 104
3 281
0.621 4
105
1 000
1
8.333 *
1.578 *
Non-Standard Length Units Conversions 1 cable = 720 ft = 219.456 m 1 cable (U.K.) = 608 ft = 185.318 m 1 chain (engineers') = 100 ft = 30.48 m 1 chain (surveyors') = 66 ft = 20.117 m 1 fathom = 6 ft = 1.829 m 1 fermi = 10-15 m 1 furlong = 660 ft = 201.168 m 1 hand = 4 in = 0.101 6 m 1 league (nautical) = 3 nmi = 5 556 m 1 league (statute) = 3 stat mi 1 light year = 9.460 895 2 * 1015 m 1 link (engineers') = 1 ft = 0.304 8 m 1 link (surveyors') = 7.92 in = 0.201168 m 1 myriameter = 10 000 m 1 nautical mile (nmi) = 1 853.184 m 1 pale = 1 perch (linear) = 1 rod = 5.029 2 m 1 pica = 1/6 in (approx.) = 4.217 518 * 10-3 m 1 point = 1/72 in (approx.) = 3.514 598 * 10-4 m 1 span = 9 in = 0.228 6 m 1 astronomical unit (au) = 92 957 130.3 mi = 1.496 * 108 km 1 parsec = 1.917 378 44 * 1013 mi = 3.085 721 50 *1013 km
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2.540 *
RF Cafe - Mass Conversion
MASS CONVERSIONS Standard units = Kilogram (kg).
1 oz = 1 lb = 1 ton = 1g= 1 kg = 1 slug = 1u=
ounce 1 16 3.200 * 104 3.527 * 10-2 35.27 514.8 5.855 *
10-26
pound 6.250 * 10-2 1 2000
ton 3.125 * 10-5 0.0005 1
2.205 * 10-3 2.205 32.17
1.102 * 10-6 1.102 * 10-3 1.609 * 10-2 1.829 * 10-30
3.660 *
10-27
* = atomic mass unit.
gram 28.35 453.6 9.072x105 1 1000 1.459 * 104 1.660 * 10-24
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kilogram 2.835 * 10-2 0.4536 907.2 0.001 1 14.59
slug 1.942 * 10-3 3.108 * 10-2 62.16
1.660 * 10-27
1.137 * 10-28
6.852 * 10-5 6.852 * 10-2 1
u* 1.708 * 1025 2.732 * 1026 5.465 * 1029 6.024 * 1023 6.024 * 1026 8.789 * 1027 1
RF Cafe - Mechanical Constants
MECHANICAL CONSTANTS
Name
Symbol
Value
Horsepower
HP
745.7 W
Atmosphere
Atm
14.70 lb/in2
Pi
P
3.141 592 653 589 793 238 46
Natural log base
e
2.718 281 828 459 045 235 36
Square root of 2
√2
1.414 213 562 372 095 048 80
Euler's constant
g
0.577 215 664 901 532 860 61
Golden Ratio
f
1.618 033 988 749 894 848 20
1º of latitude at 40º latitude
69 mi
Acceleration of gravity
g
32.1726 ft/s2
Knot
kt
1.1508 mi/hr
Speed of sound @ 0ºC
1087.1 ft/s
Water heat of fusion @ 0ºC
∆Hfus
79.71 cal/g
Water heat of vaporization @ 0ºC
∆Hvap
539.55 cal/g 43 560 ft2
Acre
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RF Cafe - Mechanical Units
MECHANICAL UNITS
Name
Base Unit
Symbol
Length
meter
m
Area
square meter
m2
Volume
cubic mete
m3
Mass
kilogram
kg
Density
kilogram/cubic meter
kg/m3
Time
second
s
Speed
kilometer/second
km/s
Force
newton
N
Pressure
pascal
P
Plane Angle
radian
rad
Solid Angle
steradian
ster
Momentum
kilogram*meter/second
ρ
Torque
newton/meter
t
Young's modulus
pascal
E
Kinetic energy
joule
K
Potential energy
joule
U
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RF Cafe - Periodic Table of the Elements
◊◊ Periodic Table of the Elements ◊◊ Legend Alkali metals Alkali earth metals Transition metals Lanthanide series
Actinide series Other metals Nonmetals Noble gases
WebElements - a great online source. 1 Ia
18 0
H
2 IIa
13 IIIa
14 IVa
15 Va
16 VIa
17 VIIa
He
Li
Be
B
C
N
O
F
Ne
Na
Mg
3 IIIb
4 IVb
5 Vb
6 VIb
7 VIIb
8 VIIIb
9 VIIIb
10 VIIIb
11 Ib
12 IIb
Al
Si
P
S
Cl
Ar
K
Ca
Sc
Ti
V
Cr
Mn
Fe
Co
Ni
Cu
Zn
Ga
Ge
As
Se
Br
Kr
Rb
Sr
Y
Zr
Nb
Mo
Tc
Ru
Rh
Pd
Ag
Cd
In
Sn
Sb
Te
I
Xe
Cs
Ba
*
Hf
Ta
W
Re
Os
Ir
Pt
Au
Hg
Tl
Pb
Bi
Po
At
Rn
Fr
Ra
**
Unq
Unp
Unh
Uns
Uno
Une
Uun
Uuu
*
La
Ce
Pr
Nd
Pm
Sm
Eu
Gd
Tb
Dy
Ho
Er
Tm
Yb
Lu
**
Ac
Th
Pa
U
Np
Pu
Am
Cm
Bk
Cf
Es
Fm
Md
No
Lr
Sym
#
Wt
actinium
Name
Ac
89
(227)
aluminum
Al
13
26.98
americium
Am
95
(243)
antimony
Sb
51
121.7
argon
Ar
18
39.94
arsenic
As
33
74.92
astatine
At
85
(210)
barium
Ba
56
137.3
berkelium
Bk
97
(247)
beryllium
Be
4
9.012
bismuth
Bi
83
209.0
boron
B
5
10.81
Name
Sym
#
Wt
Name
Sym
#
Wt
gold
Au
79
197.0
potassium
K
19
39.10
hafnium
Hf
72
178.4
praseodymium
Pr
59
140.9
helium
He
2
400.3
promethium
Pm
61
(147)
holmium
Ho
67
164.9
protactinium
Pa
91
231.0
hydrogen
H
1
1.008
radium
Ra
88
226.0
indium
In
49
114.8
radon
Rn
86
(222)
iodine
I
53
126.9
rhenium
Re
75
186.2
iridium
Ir
77
192.2
rhodium
Rh
45
102.9
iron
Fe
26
55.84
rubidium
Rb
37
85.47
krypton
Kr
36
83.80
ruthenium
Ru
44
101.0
lanthanum
La
56
138.9
samarium
Sm
62
150.4
lawrencium
Lr
103
(257)
scandium
Sc
21
44.96
http://www.rfcafe.com/references/general/periodic_table.htm (1 of 2) [4/1/02 2:43:01 AM]
RF Cafe - Periodic Table of the Elements bromine
Br
35
79.90
lead
Pb
82
207.2
selenium
Se
34
78.90
cadmium
Cd
48
112.4
lithium
Li
3
6.940
silicon
Si
14
28.08
calcium
Ca
20
40.08
lutetium
Lu
71
175.0
silver
Ag
47
107.9
californium
Cf
98
(249)
magnesium
Mg
12
24.31
sodium
Na
11
23.00
carbon
C
6
12.01
manganese
Mn
25
54.94
strontium
Sr
38
87.62
cerium
Ce
58
140.1
mendelevium
Md
101
(256)
sulfur
S
16
32.06
cesium
Cs
55
132.9
mercury
Hg
80
200.5
tantalum
Ta
73
180.9
chlorine
Cl
17
35.45
molybdenum
Mo
42
95.90
technetium
Tc
43
98.91
chromium
Cr
24
52.00
neodymium
Nd
60
144.2
tellurium
Te
52
127.6
cobalt
Co
27
58.93
neon
Ne
10
20.17
terbium
Tb
65
158.9
copper
Cu
29
63.54
neptunium
Np
93
237.0
thallium
Tl
81
204.3
curium
Cm
96
(245)
nickel
Ni
28
58.70
thorium
Th
90
232.0
dysprosium
Dy
66
162.5
niobium
Nb
41
92.91
thulium
Tm
69
168.9
einsteinium
Es
99
(254)
nitrogen
N
7
14.01
tin
Sn
50
118.6
erbium
Er
68
167.2
nobelium
No
102
(254)
titanium
Ti
22
47.90
europium
Eu
63
152.0
osmium
Os
76
190.2
tungsten
W
74
183.8
fermium
Fm
100
(255)
oxygen
O
8
16.00
uranium
U
92
238.0
fluorine
F
9
19.00
palladium
Pd
46
106.4
vanadium
V
23
50.94
francium
Fr
87
(223)
phosphorus
P
15
30.97
xenon
Xe
54
131.3
gadolinium
Gd
64
157.2
platinum
Pt
78
195.0
ytterbium
Yb
70
173.0
gallium
Ga
31
69.72
plutonium
Pu
94
(244)
yttrium
Y
39
88.91
germanium
Ge
32
72.5
polonium
Po
84
(210)
zinc
Zn
30
65.38
Man-Made Elements rutherfordium
Unq
104
261
bohrium
Uns
107
264
ununnilium
Uun
110
269
dubnium
Unp
105
262
hassium
Uno
108
265
unununium
Uuu
111
272
seaborgium
Unh
106
263
meitnerium
Une
109
266
kirtium
Ukb
999
999
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/periodic_table.htm (2 of 2) [4/1/02 2:43:01 AM]
RF Cafe - International Phonetic Alphabet
◊◊ PHONETIC ALPHABET ◊◊ International (ITU)
Police
A
Alfa (Al Fah')
Adam
B
Bravo (Brah' Voh)
C
International ITU)
Police
N
November (No Vem' Ber)
Nancy
Baker
O
Oscar (Oss Cah')
Otto
Charlie (Char' Lee)
Charlie
P
Papa (Pah' Pah)
Peter
D
Delta (Dell' Tah)
David
Q
Quebec (Keh' Beck)
Queen
E
Echo (Eck' Oh)
Edward
R
Romeo (Row' Me Oh)
Robert
F
Foxtrot (Foks' Trot)
Frank
S
Sierra (See Air' Rah)
Susan
G
Gulf (Golf)
George
T
Tango (Tang' Go)
Thomas
H
Hotel (Hoh' Tell)
Henry
U
Uniform (You Nee' Form)
Union
I
India (In' Dee Ah)
Ida
V
Victor (Vik Tah')
Victor
J
Juilette (Jew' Lee Ett)
John
W
Whiskey (Wiss' Key)
William
K
Kilo (Key' Loh)
King
X
X-ray (Ecks' Ray)
X-Ray
L
Lima (Lee' Mah)
Lincoln
Y
Yankee (Yang' Key)
Young
M
Mike (Mike)
Mary
Z
Zulu (Zoo' Loo)
Zebra
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/phonetic_alphabet.htm [4/1/02 2:45:53 AM]
RF Cafe - Pressure Conversion
◊◊ Pressure Conversions ◊◊ Standard units = Pascal (P).
1 atm = 1 in water = lb/in2
= 1 1 lb/ft2 = 1 cm Hg = 1
dyn/cm2 1 Pa =
=
atmosphere 1 2.458 6.805 4.725 1.316 9.869 9.869
* * * * * *
10-3 10-2 10-4 10-2 10-7 10-6
inch of water 406.8 1 27.68 0.1922 5.353 10-4
4.015 * 4.015 * 10-3
lb per sq in 14.70
6.944 * 10-3 0.1934
lb per sq ft 2116 5.202 144 1 27.85
10-5
10-3
3.613 * 10-2 1
1.450 * 1.450 * 10-4
in of water @ 4º C cm of Hg @ 0º C
2.089 * 2.089 * 10-2
cm of Hg 75.99 0.1868 5.171 3.591x10-2 1 7.501 * 7.501 * 10-4
1 bar = 106 dyn/cm2 1 atm = 29.92 in of Hg
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/pressure.htm [4/1/02 2:47:56 AM]
10-5
dyn/cm2 1.013 * 106 2491 6.895 * 104 478.8 1.333 * 104 1 10
pascal 1.013 * 105 249.1 6.895 * 103 47.88 1333 0.1 1
RF Cafe - Psychometric Chart
Psychometric Chart This slide set is accessed directly from the Techtrol Psychometrics web site. It is an excellent primer on the use of the psychometric chart. Here is a link for free ET_AEE software that performs calculations for you. Your browser does not support inline frames or is currently configured not to display inline frames.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/psychometric_chart.htm [4/1/02 2:49:00 AM]
RF Cafe - P-T Diagram
◊◊ Pressure-Temperature (P-T) Diagram ◊◊ P-T Diagram for a Substance That Expands On Freezing From
To
Phase Changes
Liquid
Solid
Fusion
Liquid
Vapor
Vaporization
Solid
Vapor
Sublimation
Solid
Liquid
Melting
Vapor
Liquid
Condensation
Vapor
Solid
Deposition
. Critical Point:
Pure vapor phase has same properties as pure liquid phase at same temperature and pressure.
* Triple Point:
Possible to maintain equilibrium mixture of all three phases.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/p-t_diagram.htm [4/1/02 2:50:37 AM]
RF Cafe - Relativity
RELATIVITY c = speed of light. Primed quantities are moving at speed "v".
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/relativity.htm [4/1/02 2:52:59 AM]
RF Cafe - Solar System
◊◊ SOLAR SYSTEM ◊◊
Planet
Max Radius (106 km)
Min Radius (106 km)
Revolution
Rotation
Speed (km/s)
Axis/Orbit (*)
Mass (**)
Mercury
69.7
45.9
88 d
59 d
47.9
28º/7º
0.055
Venus
109
107.4
224.7 d
(-)243 d
35
3.0º/3.4º
0.815
Earth
152.1
147.1
365.26 d
23h,56m,4s
29.8
23º 27'/0º
1
Mars
249.1
206.7
687 d
24h,37m,23s
24.1
23º 59'/1.9º
0.108
Jupiter
815.7
740.9
11.86 y
9h,50m,30s
13.1
3º 5'/1.3º
317.9
Saturn
1507
1347
29.46 y
10h,14m
9.6
26º 44'/2.5º
95.2
Uranus
3004
2735
84.01 y
(-)11 h
6.8
82º 5'/0.8º
14.6
Neptune
4537
4456
164.8 y
16 h
5.4
28º 48'/1.8º
17.2
Pluto
7375
4425
247.7 y
6d,9h
4.7
---º/17.2º
0.1
* : inclination to ecliptic (Earth's orbital plane) ** : Mass relative to earth (-) : retrograde motion
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/mathematical/solar_system.htm [4/1/02 3:08:44 AM]
RF Cafe - Sound Level Chart
◊◊ Sound Level Chart ◊◊
Location
Min
Max (dBA)
Inside Home
25
45
Inside Office
35
50
Inside Airplane Cabin
75
85
Inside Factory
65
100
Talking @ 3 ft
55
65
Shouting @ 3 ft
75
85
Clothes Dryer @ 3 ft
55
65
Vacuum @ 3 ft
65
80
100
120
Clothes Washer @ 3 ft
55
75
Car @ 25 ft @ 65 mph
70
80
Airplane @ 1000 ft
95
110
Traffic @ 300 ft
40
60
Rural Ambient
25
35
Chain Saw @ 3 ft
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/sound_level.htm [4/1/02 3:12:19 AM]
RF Cafe - Sound Power
◊◊ Sound Power ◊◊ Sound powers in dBA units are referenced to a picowatt.
Where: W1, W2 = sound power in similar watt units
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/sound_power.htm [4/1/02 3:21:58 AM]
RF Cafe - Speed Conversion
◊◊ Speed Conversions ◊◊ Standard units = Meters per second (m/s).
1 ft/s = 1 mi/h = 1 cm/s = 1 m/s = 1 km/h = 1 knot =
foot per s 1 1.467 3.281 * 10-2 3.281 0.9113 1.688
mile per h 0.6818 1 2.237 * 10-2 2.237 0.6214 1.151
cm per s 30.48 44.70 1 100 27.78 51.44
meter per s 0.3048 0.4470 0.01 1 0.2778 0.5144
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/speed.htm [4/1/02 3:24:23 AM]
km per h 1.097 1.609 3.600 * 10-2 3.600 1 1.852
knot 0.5925 0.8689 1.944 * 10-2 1.944 0.5400 1
RF Cafe - SAE Tap & Drill Chart
◊◊ SAE Tap & Drill Chart ◊◊
Thread Size
Drill Diameter (in)
Tap Drill Size
Thread Size
Coarse Thread
Drill Diameter (in)
Tap Drill Size
Fine Thread
1-64
.0595
No. 53
0-80
.0469
3/64
2-56
.0700
No. 50
1-72
.0595
No. 53
3-48
.0785
No. 47
2-64
.0700
No. 50
4-40
.0890
No. 43
3-56
.0820
No. 45
5-40
.1015
No. 38
4-48
.0935
No. 42
6-32
.1065
No. 36
5-44
.1040
No. 37
8-32
.1360
No. 29
6-40
.1130
No. 33
10-24
.1495
No. 25
8-36
.1360
No. 29
12-24
.1770
No. 16
10-32
.1590
No. 21
1/4-20
.2010
No. 7
12-28
.1820
No. 14
5/16-18
.2570
'F'
1/4-28
.2130
No. 3
3/8-16
.3125
5/16
5/16-24
.2720
'I'
7/16-14
.3680
'U'
3/8-24
.3320
'Q'
1/2-13
.4219
27/64
7/16-20
.3906
25/64
9/16-12
.4844
31/64
1/2-20
.4531
29/64
5/8-11
.5312
17/32
9/16-18
.5156
33/64
3/4-10
.6562
21/32
5/8-18
.5781
37/64
7/8-9
.7656
49/64
3/4-16
.6875
11/16
1"-8
.8750
7/8
7/8-14
.8125
13/16
1"-14
.9375
59/64
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/tap_drill.htm [4/1/02 3:27:28 AM]
RF Cafe - Temperature Conversion
◊◊ Temperature Conversions ◊◊ Celsius to Fahrenheit ºC = ºF - 32 1.8 Fahrenheit to Rankine ºR = ºF + 459.67
Fahrenheit to Celsius ºF = (1.8 ºC) + 32 Celsius to Kelvin K = ºC + 273.15
-40ºC = -40ºF
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/temperature.htm [4/1/02 3:38:05 AM]
RF Cafe - Thermal Conductivity
THERMAL CONDUCTIVITY
Substance
Thermal Conductivity (J/s·m·°C)
Aluminum
238
Copper
397
Gold
316
Iron
78.2
Nickel
88.5
Silver
425
Steel, carbon
43
Air
0.024
Glass, Pyrex
0.78
Ice
1.70
Wood, oak
0.17
Water
0.556
Brass
110
Solder, 63Sn/37Pb
50
Silicon
138
Kevlar
0.12
Alumina
17
Beryllium oxide
250
RT/Duriod 5880
0.26
Epoxy glass
0.16
Approximate values from 0 °C to 100 °C.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/thermal_conductivity.htm [4/1/02 3:40:04 AM]
RF Cafe - Time Conversion
◊◊ Time Conversions ◊◊ Standard units = Second (s).
1s= 1 min = 1h= 1d= 1 yr =
second 1 60 3600 8.640 · 104 3.156 · 107
minute 1.667 · 10-2 1 60 1440
hour 2.778 · 10-4 1.667 * 10-2 1 24
5.259 · 105
8.766 · 103
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/time.htm [4/1/02 3:40:55 AM]
day 1.157 · 10-5 6.944 · 10-4 4.167 · 10-2 1 365.2
year 3.169 · 10-8 1.901 · 10-6 1.141 · 10-4 2.738 · 10-3 1
RF Cafe - Torx Bits
TORX® BITS
Driver Size
"A" Dimension Across Points (in.)
T-5
.055
T-6
.065
T-7
.077
T-8
.090
T-9
.097
T-10
.107
T-15
.128
T-20
.151
T-25
.173
T-27
.195
T-30
.216
T-40
.260
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/torx_bits.htm [4/1/02 3:42:14 AM]
RF Cafe - Visible Light
VISIBLE LIGHT Since a lot of work these days involves light properties (displays, LEDs, Emitter/detectors, etc.), this visible light spectrum chart should be useful. Information on light addition and subtraction is included.
Gamma X-Rays Rays
Ultra Violet
Infrared
TV
Wavelength (nanometers) Additive Color System
Subtractive Color System
(adding colors to ultimately make white)
(subtracting colors to ultimately make black)
Primary additive colors for light are Red, Green and Blue
Primary subtractive colors for light are Magenta, Yellow and Cyan
Color Wheel
http://www.rfcafe.com/references/general/visible_light.htm (1 of 2) [4/1/02 3:45:11 AM]
Radio
RF Cafe - Visible Light
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/visible_light.htm (2 of 2) [4/1/02 3:45:11 AM]
RF Cafe - Volume Conversion
◊◊ Volume Conversions ◊◊ Standard units = Cubic meters (m3).
1 in3 1 ft3 = 1 cm3 = 1 m3 = 1 li =
cubic in 1 1728
cubic ft 5.787 * 10-4 1
6.102 * 10-2 6.102 * 104 61.02
3.531 * 10-5 35.31
cubic cm 16.39
106
cubic m 1.639 * 10-5 2.832 * 10-2 10-6 1
1000
10-3
2.832 * 104 1
3.531 * 10-2
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/volume.htm [4/1/02 3:49:45 AM]
liter 1.639 * 10-2 28.32 10-3 1000 1
RF Cafe - Work-Energy-Heat Conversion
◊◊ Work-Energy-Heat Conversions ◊◊ Standard units = Joule (J).
1 eV = 1 kWh = 1 cal = 1J= 1 ft*lb = 1 erg = 1 Btu =
electron V 1 2.247 2.613 6.242 8.464 6.242 6.585
* * * * * *
1025 1019 1018 1018 1011 1021
kW*hour 4.450 * 10-26 1 1.163 * 10-6 2.778 * 10-7 3.776 * 10-7 2.778 * 10-14 2.930 * 10-4
calorie 3.827 * 10-20 8.601 * 105 1 0.2389 0.3239
joule 1.602 * 10-19 3.6 * 106 4.186 1 1.356
ft*pounds 1.182 * 10-19 2.655 * 106 3.087 0.7376 1
2.389 * 10-8 252.0
10-7 1055
7.376 * 10-8 777.9
1 hp * hr = 2545 Btu 1 MeV = 106 eV
1 kg = 8.987 * 1016 J (from e=mc2)
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/work-energy-heat.htm [4/1/02 3:50:39 AM]
ergs 1.602 * 10-12 3.6 * 1013 4.186 * 107 107 1.356 * 107 1 1.055 * 1010
Btu 1.519 * 10-22 3413 3.968 * 10-3 9.481 * 10-4 1.285 * 10-3 9.481 * 10-11 1
RF Cafe - World Time Zone Map
◊◊ World Time Zone Map ◊◊ This page is retrieved directly from the U.S. Navy's web site.
Copyright, Acknowledgements, Disclaimer & Terms of Use Visitors since May 2000
http://www.rfcafe.com/references/general/time_zones.htm [4/1/02 3:52:07 AM]
USB.org - Welcome
Do you know how to identify products that have passed USB-IF Compliance Testing? Look for the USB logo
USB Remains King of PC and Peripheral Interfaces The Universal Serial Bus (USB) will continue its reign as the most successful interface in the history of PCs, with USB 2.0 completely penetrating the PC market over the next two to three years and PC peripherals and consumer electronics following closely behind, according to In-Stat/MDR (pdf, 152k)
Hi-Speed USB 2.0 Has Strong Presence at Intel Developer Forum Check the usb.org product search Both of the above
Availability of USB 2.0 drivers for Microsoft Windows XP, first-time demonstrations, certified packaging and other displays of broad industry support of Hi-Speed USB 2.0 highlighted at IDF (pdf, 16k)
'Year of USB 2.0' Starts Out Strong With Key Milestones Reached View Results
Windows XP Support, Gateway PC, Intel Desktop Boards Launched on Cusp of Broad Deployment (pdf, 96k)
Vote!
Winner: Hi-Speed USB 2.0 for Technical Excellence PC Magazine has bestowed the Eighteenth Annual Award for Technical Excellence to Hi-Speed USB 2.0 in the Specifications category. This award is given to innovators who have found new solutions to old problems. USB 2.0 was selected for this honor because of the common interface it provides and the high data transfer rate. PC Magazine Award
CNET's 'Best Emerging Technology' award goes to USB 2.0 at PC Expo In the area of Best Emerging Technology,
http://www.usb.org/ (1 of 2) [4/1/02 4:04:56 AM]
USB.org - Welcome
CNET's award goes to USB 2.0. This award does not go to any one company but to all of the industry pioneers that recognize the value of this new standard. The factors that make USB 2.0 so promising are its speed, its backward compatibility with USB 1.1, and its broad industry support.
About USB Universal Serial Bus (USB) connects more than computers and peripherals. It has the power to connect you with a whole new world of PC experiences. USB is your instant connection to the fun of digital photography or the limitless creative possibilities of digital imaging. You can use USB to connect with other people through the power of PC-telephony and video conferencing. Once you've tried USB, we think you'll grow quite attached to it! Having trouble downloading or printing the pdfs on this page? Download the latest version of the free Acrobat Reader.
Site sponsored by USB Implementers Forum, Inc., creators of USB technology.
Learn more about USB-IF Read the Privacy Statement
http://www.usb.org/ (2 of 2) [4/1/02 4:04:56 AM]
RF Cafe - Noise Figure
◊◊ Noise Figure ◊◊ Noise figure is the increase in noise power of a device from the input to the output that is greater that the signal gain. In effect, it is the amount of decrease of the signal-to-noise ratio. Like gain, noise figure can be expressed either as a ratio or in decibels. Cascade noise figure calculation is carried out by dealing with gain and noise figure as a ratio rather than decibels, and then converting back to decibels at the end. As the following equation shows, cascaded noise figure is effected most profoundly by the noise figure of components closest to the input of the system as long as some positive gain exists in the cascade. If only loss exists in the cascade, then the cascaded noise figure equals the magnitude of the total loss. The following equation is used to calculate cascaded noise figure as a ratio based on ratio values for gain and noise figure (do not use decibel values)
nfcascade =
, where N = number of stages
Click here to view an example cascaded system.
Conversion to decibels: NF (dB) = 10 * log10 (nf)
Noise Temperature (K) = 290 * Noise Figure (dB) = 10 * log10
Click here to see Agilent's online App Note 1303 on using a spectrum analyzer to measure noise figure.
http://www.rfcafe.com/references/electrical/noise_figure.htm (1 of 2) [4/1/02 4:08:56 AM]
RF Cafe - Noise Figure
The following table lists a few conversion. See the "Noise Conversions" tab of the online calculator for calculating other values. NF(dB) 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2.0
Tn (°K) 7 14 21 28 35 43 51 59 67 75 84 92 101 110 120 129 139 149 159 170
NF(dB) 2.1 2.2 2.3 2.4 2.5 2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 4.0
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Tn (°K) 180 191 202 214 226 238 250 263 275 289 302 316 330 344 359 374 390 406 422 438
RF Cafe - Example system cascade
◊◊ EXAMPLE SYSTEM CASCADE ◊◊
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RF Cafe - 2-Tone, 2nd-Order Compression Point (IP2)
2-TONE, 2ND-ORDER COMPRESSION POINT (IP2) When two or more tones are present in a nonlinear device, intermodulation products are created as a result. A power series describes all of the possible combinations of generated frequencies. 2nd-order products lie near in frequency to the two input tones and are therefore not very likely to fall inband at the output in a narrow band system. As a device is driven farther into its nonlinear region, the amplitudes of the third order products increase while the powers of the input tones decrease. If the device was not limited in output power, then the powers of the intermodulation products would increase in power until they were eventually equal in power with the input tones at the output. Assuming a gain of 1 (0 dB) the slope of the fundamental gain line would be 1:1; the slope of the 2nd-order gain line would be 2:1. The slope of the 2nd-order product line is 1:1 relative to the fundamental gain line. Accordingly, the 2nd-order products increase in power at the same rate as the input tones and are always twice times farther away from the IP2 than the input tones when not near saturation. The power of the 2nd-order products can be predicted when the IP2 is known, or the IP2 can be predicted when the relative amplitudes of the 2nd-order tones and the input tones are known. P2nd-order products = 2 · Pinput tones@output - IP2 {dBm} IP2 =2 · Pinput tones@output - P2nd-order products {dBm}
Calculating the cascaded values for IP2 requires the following operation based upon ratios for gain and IP2 (do not use decibel values):
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RF Cafe - 2-Tone, 2nd-Order Compression Point (IP2)
Click here to view an example cascaded system.
Finally, convert to decibels IP2 = 10· log10 [ip2] {dB}
Conversion of the IP3 and IP2 reference may be accomplished with the following equations:
or
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RF Cafe - 2-Tone, 3rd-Order Compression Point (IP3)
2-TONE, 3RD-ORDER COMPRESSION POINT (IP3)
Here's a great link to a paper on intermod frequency prediction for any number of tones. When two or more tones are present in a nonlinear device, intermodulation products are created as a result. A power series describes all of the possible combinations of generated frequencies. 3rd-order products lie near in frequency to the two input tones and are therefore very likely to fall inband at the output. As a device is driven farther into its nonlinear region, the amplitudes of the third order products increase while the powers of the input tones decrease. If the device was not limited in output power, then the powers of the intermodulation products would increase in power until they were eventually equal in power with the input tones at the output. Assuming a gain of 1 (0 dB) the slope of the fundamental gain line would be 1:1; the slope of the 3rd-order gain line would be 3:1. The slope of the 3rd-order product line is 2:1 relative to the fundamental gain line. Accordingly, the 3rd-order products increase in power at twice the rate of the input tones and are always three times farther away from the IP3 than the input tones when not near saturation. The power of the 3rd-order products can be predicted when the IP3 is known, or the IP3 can be predicted when the relative amplitudes of the 3rd-order tones and the input tones are known. Equal Input Powers (see below for unequal powers)
P3rd-order products = Pinput tones@output - 2 · (IP3 - Pinput tones@output) {dBm} P3rd-order products = 3 · Pinput tones@output - 2 · IP3 {dBm} IP3 =3/2 · Pinput tones@output - 1/2 P3rd-order products {dBm}
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RF Cafe - 2-Tone, 3rd-Order Compression Point (IP3)
Calculating the cascaded values for IP3 requires the following operation based upon ratios for gain and IP3 (do not use decibel values):
Click here to view an example cascaded system. Finally, convert to decibels IP3 = 10 · log10 [ip3] {dB} The following equation is a series expansion of the mixing (multiplying) of two pure tones:
Conversion of the IP3 and IP2 reference may be accomplished with the following equations: IP3/IP2OUTPUT = (IP3/IP2INPUT + Gain) {dBm} or IP3/IP2INPUT = (IP3/IP2OUTPUT - Gain) {dBm}
Unequal Input Powers PL = P2 - 2*(IP3 - P1) PU = P1 - 2*(IP3 - P2) Where power units are kept constant in dBm or dBW
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RF Cafe - 2-Tone, 3rd-Order Compression Point (IP3)
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RF Cafe - Frequency Modulation
◊◊ BESSEL FUNCTIONS ◊◊
Bessel functions of the first kind are shown in the graph below. In frequency modulation, the carrier and sideband frequencies disappear when the modulation index (β) is equal to a zero crossing of the function for the nth sideband. For example, the carrier (0th sideband) disappears when the Jn(0,β) plot equals zero. The 1st sideband disappears when the Jn(1,β) plot equals zero. See FM. Sample of Bessel Function Zero Crossings J0(β) β β β β
= = = =
2.40 5.49 8.65 11.8
J1(β)
J2(β)
J3(β)
J4(β)
J5(β)
J6(β)
β = 3.83 β = 7.05 β = 10.2
β = 5.14 β = 8.42 β = 11.6
β = 6.38 β = 8.42 β = 11.6
β = 7.59 β = 11.1 β = 14.4
β = 8.77 β = 12.3 β = 15.7
β = 9.94 β = 13.6 β = 17.0
Note: Graph generated using Mathcad 4.0.
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RF Cafe - VSWR to Return Loss Conversion
◊◊ VSWR - Return Loss - Γ Conversions ◊◊ See the VSWR Calculator page. Voltage Standing Wave Ratio
Return Loss
Reflection Coefficient
Γ=
VSWR =
RL = -20*log|Γ| dB
RL(dB)
VSWR
Γ
RL(dB)
VSWR
Γ
RL(dB)
VSWR
Γ
RL(dB)
VSWR
Γ
46.0
1.01
0.00498
26.0
1.11
0.0521
17.7
1.30
0.130
8.0
2.32
0.398
40.0
1.02
0.00990
25.0
1.12
0.0566
17.0
1.33
0.141
7.0
2.61
0.445
37.0
1.03
0.0148
24.0
1.13
0.0610
16.0
1.38
0.158
6.02
3.01
0.500
34.0
1.04
0.0196
23.5
1.14
0.0654
15.0
1.43
0.178
5.0
3.56
0.562
32.0
1.05
0.0244
23.0
1.15
0.0698
14.0
1.50
0.200
4.0
4.42
0.631
30.4
1.06
0.0291
22.0
1.17
0.0783
13.0
1.58
0.224
3.01
5.85
0.707
29.0
1.07
0.0338
21.5
1.18
0.0826
12.0
1.67
0.250
2.0
8.72
0.794
28.0
1.08
0.0385
20.7
1.20
0.0909
11.0
1.78
0.282
1.0
17.39
0.891
27.0
1.09
0.0431
20.0
1.22
0.100
10.0
1.92
0.316
0.5
34.75
0.944
26.4
1.10
0.0476
19.0
1.25
0.112
9.0
2.10
0.355
0.0
Infinity
1.00
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RF Cafe - Spurious-Free Dynamic Range
SPURIOUS-FREE DYNAMIC RANGE Spurious-free dynamic range (SFDR) is two-thirds the difference between the 2-tone, third-order intercept point (IP3) and the minimum discernible signal (MDS). Referring back to Figure 1, it can be seen that the 3rdorder product line has a 3:1 slope while the fundamental output line has a 1:1 slope. Therefore, the 3rd-order products are always twice as far from the IP3 as the fundamental output. If you use the SFDR as the power of the output tones (dBm) and plug it into the equation for IP3 calculation from the Intercept Points (IP3 & IP2) section of the RF Cafe web site, the power of the 3rd-order products will be right at the MDS power level.
Figure 1
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RF Cafe - Noise Power
◊◊ Noise Power ◊◊ Noise power is based on the thermal noise power at the input of the system, along with system gain and noise figure:
PThermalNoise = k * T * B (Watts), where
Multiply by 1000 to obtain milliwatts and then convert to dBm units or convert to dBW units and add 30 dB: PThermalNoise (dBm) = 10 * log10 (1000 * k * T * B) or PThermalNoise (dBm) = 10 * log10 (k * T * B) + 30 Now that we have the thermal noise at the input, add the system gain and the additional noise added by the system (the NF) to get the noise power at the output:
PNoise@Output (dBm) = PNoise@Input + GainSystem + NFSystem
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RF Cafe - Toroids - Powdered Iron
TOROIDS - POWDERED IRON
Use the table below to calculate inductance and number of turns per the following formulas. where: L = inductance in µH AL = µH per 100 turns N = number of full turns
AL Values Mix Type Size
26
3
15
1
2
7
6
10
12
17
0
T-12
n/a
60
50
48
20
18
17
12
7.5
7.5
3.0
T-16
145
61
55
44
22
n/a
19
13
8.0
8.0
3.0
T-20
180
76
55
52
27
24
22
16
10
10
3.5
T-25
235
100
85
70
34
29
27
19
12
12
4.5
T-30
325
140
93
85
43
37
36
25
16
16
6.0
T-37
275
120
90
80
40
32
30
25
15
15
4.9
T-44
360
180
160
105
52
46
42
33
18.5
18.5
6.5
T-50
320
175
135
100
49
43
40
31
18
18
6.4
T-68
420
195
180
115
57
52
47
32
21
21
7.5
T-80
450
180
170
115
55
50
45
32
22
22
8.5
T-94
590
248
200
160
84
n/a
70
58
32
n/a
10.6
T-106
900
450
345
325
135
133
116
n/a
n/a
n/a
19
T-130
785
3350
250
200
110
103
96
n/a
n/a
n/a
15
T-157
870
420
360
320
140
n/a
115
n/a
n/a
n/a
n/a
T-184
1640
720
n/a
500
240
n/a
195
n/a
n/a
n/a
n/a
T-200
895
425
n/a
250
120
105
100
n/a
n/a
n/a
n/a
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RF Cafe - Toroids - Powdered Iron
Iron Powder Magnetic Core Properties Temp f Stability (MHz) (ppm/°C)
Mix
Color
Material
µ
26
Yellow/White
Hydrogen Reduced
75
825
3
Gray
Carbonyl HP
35
370
15 1 2 7 6 10 12
Red/White Blue Red White Yellow Black Green/White
Carbonyl GS6 25 Carbonyl C 20 Carbonyl E 10 Carbonyl TH 9 Carbonyl SF 8 Powdered Iron W 6 Synthetic Oxide 4
190 280 95 30 35 150 170
17
Blue/Yellow
Carbonyl
4
50
0
Tan
Phenolic
1
0
DC -1 0.05 0.50 0.10 - 2 0.50 - 5 2 -30 3 - 35 10 -50 30 - 100 50 - 200
Uses
EMI filters, DC chokes Exc. stability, good Q at low freq.
Exc. stability, good Q Exc. stability, good Q at low freq. High Q Similar to mix 2 and mix 6, exc. temp stability Very good Q and temp. stability for 20-50 MHz Good Q and stability for 40-100 MHz Good Q, moderate temp. stability Similar to mix 12, better temp. stability, Q drops about 10% 40 - 180 above 50 MHz, 20% above 100 MHz 100 - 300 L varies greatly with winding technique
Iron Powder Magnetic Core Dimensions Size T-200-2 T-94-2 T-80-2 T-68-2 T-50-2 T-37-2 T-25-2 T-12-2 T-50-10 T-37-10 T-25-10 T-12-10 T-94-9 T-80-6 T-68-6 T-50-6 T-26-6 T-12-6
Color Red Red Red Red Red Red Red Red Black Black Black Black Yellow Yellow Yellow Yellow Yellow Yellow
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O.D. 2.00 0.94 0.80 0.68 0.50 0.37 0.25 0.125 0.50 0.37 0.25 0.125 0.94 0.80 0.68 0.50 0.25 0.125
Dimensions (in) I.D. 1.25 0.56 0.50 0.37 0.30 0.21 0.12 0.06 0.30 0.21 0.12 0.06 0.56 0.50 0.37 0.30 0.12 0.06
Height 0.55 0.31 0.25 0.19 0.19 0.12 0.09 0.05 0.19 0.12 0.09 0.05 0.31 0.25 0.19 0.19 0.09 0.05
RF Cafe - Detectors
DETECTORS § This page is retrieved directly from the Electronic Warfare and Radar Systems Engineering Handbook web site.
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