Gore Microwave/RF Assemblies provide reliable electrical performance for applications from DC through 67 GHz. They offer excellent flexibility, superior electrical stability, and proven phase and amplitude stability for consistent and repeatable measurements. Their small diameter and highly flexible yet durable construction simplify routing while ensuring long-lasting electrical performance.
Webinar Slides: Probing in Power Electronics - What to use and whyHilary Lustig
Join Teledyne LeCroy for this webinar as we provide an overview of the different HV rated probe specifications and topologies, explain what measurement each probe topology is ideally suited for, and provide real-word examples and comparisons between a variety of different probes and amplifiers.
Webinar Slides: Probing in Power Electronics - What to use and whyHilary Lustig
Join Teledyne LeCroy for this webinar as we provide an overview of the different HV rated probe specifications and topologies, explain what measurement each probe topology is ideally suited for, and provide real-word examples and comparisons between a variety of different probes and amplifiers.
Original Mosfet IRF4905PBF IRF4905 IRF4905 4905 55V 74A TO-220 New Internatio...AUTHELECTRONIC
Original Mosfet IRF4905PBF IRF4905 IRF4905 4905 55V 74A TO-220 New International Rectifier
https://authelectronic.com/original-mosfet-irf4905pbf-irf4905-irf4905-4905-55v-74a-to-220-new-international-rectifier
Designed a microwave amplifier circuit with a required bandwidth of 250MHz at a center frequency of 3.7GHz experiencing 6.5dB gain within Keysight ADS.
Original N Channel Mosfet IRF3710PBF IRF3710 3710 37A 100V NewAUTHELECTRONIC
Original N Channel Mosfet IRF3710PBF IRF3710 3710 37A 100V New
https://authelectronic.com/original-n-channel-mosfet-irf3710pbf-irf3710-3710-37a-100v-new
Original Mosfet IRF4905PBF IRF4905 IRF4905 4905 55V 74A TO-220 New Internatio...AUTHELECTRONIC
Original Mosfet IRF4905PBF IRF4905 IRF4905 4905 55V 74A TO-220 New International Rectifier
https://authelectronic.com/original-mosfet-irf4905pbf-irf4905-irf4905-4905-55v-74a-to-220-new-international-rectifier
Designed a microwave amplifier circuit with a required bandwidth of 250MHz at a center frequency of 3.7GHz experiencing 6.5dB gain within Keysight ADS.
Original N Channel Mosfet IRF3710PBF IRF3710 3710 37A 100V NewAUTHELECTRONIC
Original N Channel Mosfet IRF3710PBF IRF3710 3710 37A 100V New
https://authelectronic.com/original-n-channel-mosfet-irf3710pbf-irf3710-3710-37a-100v-new
3.4-3.9GHz Parallel Coupled Bandpass Filter with High Stopband Rejection and ...IJERA Editor
This paper presents the design, fabrication, and measurement of 3.4-3.9 GHz parallel coupled microstrip
bandpass filter. The EM simulation results indicate that the insertion loss varies between -1dB and -0.795dB at
the desired frequency band. Both input and output VSWRs show the maximum value of 1.28. More than 40dB
rejections out of band are witnessed at the stopbands of DC-2.7GHz and 4.85-7.45GHz. In contrast, the
measured insertion loss is a little poorer, changing from -1.87dB to -2.59dB, and above 40dB suppression is also
recorded at the same stopbands. A little higher input and output VSWRs, 1.415 and 1.404 are achieved in the
fabricated filter. These results demonstrate that the developed filter can be applied in 3.4-3.9GHz
communication systems.
3.4-3.9GHz Parallel Coupled Bandpass Filter with High Stopband Rejection and ...IJERA Editor
This paper presents the design, fabrication, and measurement of 3.4-3.9 GHz parallel coupled microstrip
bandpass filter. The EM simulation results indicate that the insertion loss varies between -1dB and -0.795dB at
the desired frequency band. Both input and output VSWRs show the maximum value of 1.28. More than 40dB
rejections out of band are witnessed at the stopbands of DC-2.7GHz and 4.85-7.45GHz. In contrast, the
measured insertion loss is a little poorer, changing from -1.87dB to -2.59dB, and above 40dB suppression is also
recorded at the same stopbands. A little higher input and output VSWRs, 1.415 and 1.404 are achieved in the
fabricated filter. These results demonstrate that the developed filter can be applied in 3.4-3.9GHz
communication systems.
Metal/acryl/wood Laser cutting system
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
Pivott is healthy chair for your back
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
"aeroFIX" is new vacuum chuck device
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
All-in-one CAE software
Homepage : www.muratasoftware.com/en
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
UV LED system for curing
Homepage : www.fourn4.com
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
"Legmoa" is leg straightener for beautiful leg.
Homepage : www.legmoa.com
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
Cerazor is shaver for women
Homepage : www.infino.co.kr
You can view more sales informations in "www.frandnew.com"
Friends, did you forgive your dreams, too?
Then, only make your letters!
I made a direct online referral business letter platform
for millions of buyer and seller who have seeked for global business informations.
If you want more communication with me, email to me.
E-mail : groomofghost@gmail.com
Final stage of marketing. Let's be friends!
= Frand New =
Using recycled concrete aggregates (RCA) for pavements is crucial to achieving sustainability. Implementing RCA for new pavement can minimize carbon footprint, conserve natural resources, reduce harmful emissions, and lower life cycle costs. Compared to natural aggregate (NA), RCA pavement has fewer comprehensive studies and sustainability assessments.
About
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
Technical Specifications
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
Key Features
Indigenized remote control interface card suitable for MAFI system CCR equipment. Compatible for IDM8000 CCR. Backplane mounted serial and TCP/Ethernet communication module for CCR remote access. IDM 8000 CCR remote control on serial and TCP protocol.
• Remote control: Parallel or serial interface
• Compatible with MAFI CCR system
• Copatiable with IDM8000 CCR
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
Application
• Remote control: Parallel or serial interface.
• Compatible with MAFI CCR system.
• Compatible with IDM8000 CCR.
• Compatible with Backplane mount serial communication.
• Compatible with commercial and Defence aviation CCR system.
• Remote control system for accessing CCR and allied system over serial or TCP.
• Indigenized local Support/presence in India.
• Easy in configuration using DIP switches.
NUMERICAL SIMULATIONS OF HEAT AND MASS TRANSFER IN CONDENSING HEAT EXCHANGERS...ssuser7dcef0
Power plants release a large amount of water vapor into the
atmosphere through the stack. The flue gas can be a potential
source for obtaining much needed cooling water for a power
plant. If a power plant could recover and reuse a portion of this
moisture, it could reduce its total cooling water intake
requirement. One of the most practical way to recover water
from flue gas is to use a condensing heat exchanger. The power
plant could also recover latent heat due to condensation as well
as sensible heat due to lowering the flue gas exit temperature.
Additionally, harmful acids released from the stack can be
reduced in a condensing heat exchanger by acid condensation. reduced in a condensing heat exchanger by acid condensation.
Condensation of vapors in flue gas is a complicated
phenomenon since heat and mass transfer of water vapor and
various acids simultaneously occur in the presence of noncondensable
gases such as nitrogen and oxygen. Design of a
condenser depends on the knowledge and understanding of the
heat and mass transfer processes. A computer program for
numerical simulations of water (H2O) and sulfuric acid (H2SO4)
condensation in a flue gas condensing heat exchanger was
developed using MATLAB. Governing equations based on
mass and energy balances for the system were derived to
predict variables such as flue gas exit temperature, cooling
water outlet temperature, mole fraction and condensation rates
of water and sulfuric acid vapors. The equations were solved
using an iterative solution technique with calculations of heat
and mass transfer coefficients and physical properties.
Hierarchical Digital Twin of a Naval Power SystemKerry Sado
A hierarchical digital twin of a Naval DC power system has been developed and experimentally verified. Similar to other state-of-the-art digital twins, this technology creates a digital replica of the physical system executed in real-time or faster, which can modify hardware controls. However, its advantage stems from distributing computational efforts by utilizing a hierarchical structure composed of lower-level digital twin blocks and a higher-level system digital twin. Each digital twin block is associated with a physical subsystem of the hardware and communicates with a singular system digital twin, which creates a system-level response. By extracting information from each level of the hierarchy, power system controls of the hardware were reconfigured autonomously. This hierarchical digital twin development offers several advantages over other digital twins, particularly in the field of naval power systems. The hierarchical structure allows for greater computational efficiency and scalability while the ability to autonomously reconfigure hardware controls offers increased flexibility and responsiveness. The hierarchical decomposition and models utilized were well aligned with the physical twin, as indicated by the maximum deviations between the developed digital twin hierarchy and the hardware.
Overview of the fundamental roles in Hydropower generation and the components involved in wider Electrical Engineering.
This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
We have compiled the most important slides from each speaker's presentation. This year’s compilation, available for free, captures the key insights and contributions shared during the DfMAy 2024 conference.
Student information management system project report ii.pdfKamal Acharya
Our project explains about the student management. This project mainly explains the various actions related to student details. This project shows some ease in adding, editing and deleting the student details. It also provides a less time consuming process for viewing, adding, editing and deleting the marks of the students.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
1. Ex˛ellent flex¡ b¡ l¡ ty, super¡ or ele˛ tr¡ ˛al stab¡ l¡ ty
For test app '¡ cat¡ ons that requ¡ re cons¡ stent and high ly repeatabie
rㄲ easurements, GORE M ¡crowave/RF Assemblies for general purpose
test app [¡ cat¡ ons provide rel¡ able electrical perf˚ rrㄲ ance w¡ th proven
phase and amplitude stab"¡ ty. The smaller diameter and h¡ gh [y
Πexible, yet durabie constru ct¡ 0n simplify the rout¡ ng process whi 'e
ensuring long— Iasting electrica [ performance after Installation,
part¡ cula"y in board— to— board and ¡nside—the— box systems. GORE
Microwave/ RFAsserㄲ blies prov¡ de electr¡ cal and rㄲ echanical ¡ntegrity
for [ong service life in a l¡ ghtwe¡ ght cab[e asserㄲ bly.
mAx■ mum FLEX' B■ L● ㅜY
GORE AII
¡crowave/ RF Asserㄲ b '¡ es are extremely ∏exible and
ⅥI¡ thstand the r¡ gors of handl¡ ng and insta‖ ation. '」 nlike trad¡ t¡ ona‖ y
designed flexible cables that are more stifFand d¡ fFicult to handle,
Gore’ s assemblies have a small bend radius that makes ro'」 ting easy
even in tight spaces. The¡ r smal[er size and Πex¡ bil¡ ty enable these
cables to maintain s¡ gnal ¡ntegrity for a longer serv¡ ce lifo.
PRE˛
'SE AⅢ
D REPEAτABLE m巳ASUREⅢ EⅢㅜS
GORE M ¡crowave/ RF Assemb [i es ofFor exce l[ent electri ca l perf° rmance
¡n appli˛ at¡ ons from DC through 67 GHz. The assembl¡ es’
proven
phase and arnp[¡ tude stabil¡ ty ensures accurate and ¨epeatab'e
rㄲ easurements. Gore tests each asserㄲ bly after manufacturingto
ensure that ¡ts ¡nsert¡ on loss and VSWR meet perfbrrㄲ ance cf¡ tefia.
The constru ction of GORE Microwave/ RF Assemblies enables
consistent electr¡ cal perforrㄲ ance (F¡ gu re 1). Gore’ s expanded
polytetraΠ uoroethylene (ePTFE1 ¡nsulation has a die [ectric constant
0f 1.4, wh¡ ch translates t0 low relative loss, h ¡gh velocity of
p ropagat¡ on (B5 percent speed of 'ighυ , Iow capacitive loading,
and high ˛ut-0f「 frequenc¡ es. Protected by the inner braid and
jacket, the outer conductor delivers a rninimurㄲ of 100 dB/ft of
sh ¡e'd ¡ng efFoctiveness through 18 GHz. A spec¡ Πc assembly’ s
sh ¡eld ¡ng effectiveness is determined by the cho¡ ce of connector.
G0re prov・ ides a
variet'y 0「 standard
connecto rs designed
speciΠ ca lly for
GOREε 'Ⅵ
icrowave/
RF Assembl¡ es.
These connectors
a re engineered to
complement the
per「 o rmance 0f each
cable, minimizing
loss and re「 lection
「0r optimized s¡ gnal
transmiss¡ on.
F'GURE 1: THE A"Aτ omy oF GOREΘ
m'˛ RowAvE/ RF AssEⅲ BL● ES Fo R
G E" ERAL PURPoSE APPL' ˛AT' o " S
Beneㅐts of GORE m :˛
¨owave/ RF
AsseЬb [ies
●Reliable s¡ gnal integr¡ ty over longer d ¡stances with lovv
10ss up to 67 GHz
●Reliable, repeatable electrical performance with
consistent phase and arnpl¡ tude stab‖ ity
. Easy insta ‖ation with Πexible construction and sma‖
bend radius
. Decreased weight w¡ th sma‖ er d ¡ameter for higher
density appl¡ cations
●Design Πexibil¡ ty vv¡ th a var¡ ety 0f interconnect opt¡ ons
ㅠνP' ˛AL APPL' ˛Aㅜ
' o
Ⅲs
●Board —to— board systern s
●'ns¡ de—the— box systems
●Wafer probing
●ATE systerㄲ s 。utomated
test equipmenυ
●Load boards
. Optica[ modules
●Evaluation boards
●Antenna arrays
●Tost bench systems
●EModule式 0-module
interconnect
●Env¡ ronmental test chanㄱ bers . Backplane interconnects
●Therrnal vacuum chambers . Clock d¡ str¡ but¡ on
●Telecomnㄱ unicat¡ 0n systems
●●
-●
r●
'I…
rp●
-●
Tesf:A'pf-“ lie●●
2. PㅐASE ⅢAㅜ˛H ■‖G
Upon request, phase ortirㄲ e delay rㄲ atching can be specified for
GORE Microwave/ RFAssemblies with frequencies of DC through
67 GHz. Accord¡ ng to the performance requ¡ rerㄲ ents 0fthe
appl¡ cation, cable assemblies can be spec¡ fied to meet absolute
0r re lat¡ ve matching values :
●Abso'ute match: One or rnore assemblies having a speciΠ c time
delay or phase iength target va[ue ±sorne tolerance vaiue. This
type of spe˛ ¡fication a‖ ows replacement or add ¡tion of individual
cables in a nㄱ atched set.
●Relat¡ve mat˛ h ∶T₩o or rnore assenη bl¡ es whose time delay or
phase [ength foil "vith ¡n a speciΠ ed rnatch window. Relat¡ ve
match ¡ng ensures cons¡ stent mat˛ hing w¡ thin a set of cables,
but an assemb[y frorㄲ one set may not necessarily be matched
with cable assemblies in another set.
Gore can prov¡ de absolute and re[ative time delay r˙ natching to
sub —p
¡cosecond to lerances.
ㅠhBLE 1: H ■G ㅐ- DE‖ SITY 'ㅐTER˛o ⅢⅢE˛T SPE˛
'
Π˛ATIo ‖S1
Ass●ⅲ:::bi::::˚ s
H ■GH— DE‖ S 'TY 1 ‖TER˛o Ⅲ"E˛TS
Gore offe rs severai extremely srna [l interconnects that del¡ ver
cons ¡stent electr¡ cal perfo rmance with rㄲ ax¡ rnum Πexib ‖ity
lTobie 1). These assembl¡ es enalλ e you to ach ¡eve high dens¡ ty
for applications such as pr¡ nted circu:t boards and load boards.
The comb¡ nat¡ on of :ow Ioss, sma[l diameter and m ¡n¡ mum
bend radius fac¡ l¡ tate eas¡ er routing and durable insta[[ation,
making therㄲ an ¡deai replacement for serni— r¡ g¡ d assemblies
(F¡ gure 2). Avariety ofpush— on connectors are ava¡ lable (T台 ble 2).
For cable/connector combinations speciΠ ca ‖y des¡ gned for
load board applicat¡ ons, contact a Gore representative at
e le˛ t ron ¡cs. usa@w'go re. ˛om.
g●r; CaDte Type::::
Max¡ nㄱ um Frequency
:
"
:
㎱ =B
1 8
GI :
1 8
+
6 7
Tν p ¡ca1 VSWR 1.33:1 : 1.32:1
TypicaⅡ nsertion Loss (dB): 1.58 : 1.26
Impedance (Nom'nal) (Ohms) :
Attenuat¡ on at 'Ⅵ aximum Frequency [dB/r˙ n (dB/ft)] : 5.04 (1. 54) : 3.69 (1.13)
Dielectric Constant (Nom ¡nal) :
1 .30: 1
0. 77
::: . ::' ::'
(0. 71)
::“:
1 8
1 .:;0 :1
0. 75
!!:::¡
¡:0 : : ::
1.33: 1
1 .93
1.40:1 : 1.40:1
1.60 : 2.58
8
ㄲ刀
,
0
6
:
2
(
Ψ
:
4
一
1
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–ㅏ
α
"
ㄸ
O
α
α
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,
“
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"
」
"
5.45 : 5.35 : 7.02
(1.66) : (1.63) : (2.14)
Veioc¡ ty of Propagation (NoI˙ n ¡naD (%)
Sol¡ d : Solid
1.2 ⒀.047) : 1.8 (0.070)
5.6 : 11.5
(1.7) : (3.5)
8 5
〉100
0.04 (0. 103)
Stranded : Solid
3.0 : 3.0
(0.120) : (0.120)
29.5 (9.0) : 29.5 (9.0)
: Solid Solid Solid
: 1.8 2.2 1.8
(0.070) (0.085) (0.070)
:".5 (3.5)
㎋↓ 出
瑾
瑾
瑄
瑾
Nominal We¡ ght [g/m (0z/ft)]
'lllinimuⅲ
:,end 魚jdius [mm (¡ n)]
”
.7 (0.5) :
”
.7 ⒯.5) :∞ .2 (0.4)
κ
‘
: ♂⅞
6. 4
(0. 25)
10. 2
(0. 4)
: Temperatur'e Range (ㅇ ⊂)・ 55 to 125
IThe elect''ical specincations in th¡ stable are based on a OB rn(12¡ n)assembly Iength and rnaximum frequency˙ with straight connector˙s
Page 2
藝
≡
:—
3. F'GURE 2: m' N 'mum ㅜVp'˛ AⅡ ⅢSERT● oㅐ Loss (dB)
FoR H ●GH— DE‖SlㅜY 'ㅐ ㅜERCoN ‖E˛ㅜS1
0. 0
・0. 5
・1 . 0
・1 . 5
・2.0
・2. :,
—B.0
⌒ㅁ°˘
∽:
。
˜
ㄷ
°–ㄷ
Φ
∽
ㄷ
–
랄
'' — G4
— G1
89
Φ¨55
— 54
— 5B
— 4L
奧
晦 \
<ξF' '' 、
''
\
\ ,
'-, ㄴ一
鰥
0 10 20 B0 40 50 60 70
Frequen˛ y (G ㅐz)
I The electr¡
cal spec¡ hcat¡ ons ¡n this table are based on a 0:3 rn (12 in) assembly length
and max¡
”
um frequency with stra¡ ght connecto rs
ㅜABLE 2: ˛oⅢ NE˛ㅜoR opㅜ ●oⅢ s FoR H 】GH— DE"S'TY '‖ ㅜER˛oⅢ NE˛TS
SMA Box Right—Angie Ma [e
SMA Bulkhead Female
: TN CA ''ㅣ'I,'''ㅣ
lale
R42 R4 2
s71
≡
7
:
0
:
4
R
:
R
:
R
⊂01: 18
26. 5
Smo0thb0re Male : 26. 5
c01
ZqF :
===
ZF6 : ZF6
ZT8 : ZEM
ZqF
ZEM
2.92 mm Female
1.85 mm ΓⅥale
PM Bulkhead Fernale ZW7 :
PS Box R¡ ght— Angle Female
[ⅲ e maχ imu'ㄲ ope''ating frequencyㅇ f a test assemblyis determined as the lowestfrequency of e¡ therthe connectors orthe caⅢ e
: 0c2
PM Smooth Bore Male
Page 3
o CZ
ε↔
"er●
I η
''ipo¸
e
Te● f 4''Ili●
'H●
”
¸
Go¨e Cabie TYpe
G1 : G4 : ¸4
SMA AIIale
¸B4 L 89 ¸5
SMA Female
SMP Bulkhead Full rlllale 26. 5 :::::: ZT4
s02 s02
: ZUj ZUj
SMP Box R¡ ght— Angle Female
SMP Female
2.92 rnm rlllale 40 ::::: ocx : ocq
2.4 mIㄲ Male
SMPAII Box Right— Angle Female 6 7 ZVˇ'
67 : ZW7
4. RE⅛ :‖ :¡ ˛
'oⅲ
aveIRF Asse:'ㄲ bl¡ es
WAFER PRoBE Aㅐ D mULT● -PURposE AssEmBL● ES
These multi —purpose GORE M ¡cro'Nave/ RF Calㅘ e Assembl¡ es
deliver a comb¡ nation 0f exce‖ ent electr¡ cal and r˙nechanical
⅝ 묘{::표
{枉
琥
n:;:듀
:'닮ξlㅠ::능
f::⅜
::::iiI규 표::튜 :
amp!itude stab‖ ¡ty enable the후 e assemblies to maintain iow loss
and withstand the rn otion common ¡n applications such as wafer
:隧낭묩忍:#:'#芷1∶∶퓨哥㎋루;:ㅏ]:#곯
'팎
乏모:⅜⅛"“
are ava¡ lable with a variety of connectors (Toble o.
F'GURE B: m' N ' mum TVp[˛ AL 'NSERㅜ●oN Loss (dB)
FoR WAFER PRoBE AND mUL∏ -PURposE AssEmB Ⅱ ESB
‥●-・
G’
G 9
— G2
—G7
申 4ˇ'
G D
一 2Z
— 4F
5 0
1.30 (0.40): (⅛
::⅜) : (::;⅞ )
+/- 3.0 : +/- 3.0 : +/・ 5.0
〈+/- 0.05
1.4
8 5
〉100
0.04 (0.103)
Stranded : Solid Solid : Solid
3.6 : 3.0
(0.140) : (0.120)
32.8 (10): 29.5 (9)
25.4 : 12.7
(1.0) : (0.5)
Solid
4. 1
(0. 160)
36.1 (1 1)
25.4 (1.0)
o
.
1
0
B.0 ÷・
.r,.0
—6. o
見—一—ξㅏ
ㅗ一ㅜ步「
一—옮—--¨
듦
一—:-—
亐
:0
Frequen ˛y (G ㅐz,
, The electr¡ cal speci듀 cations in th¡ s table are based on a 0 9 m (B6 in) assembly length
and maximum frequency with straight connectors.
τABLE ,: WAFER PRoBE A‖ D mU ιf'-PU RposE AssEmBLY SPE˛
' F●
˛AT'o‖ s3
G5 : G2 : G9 : G7 : 4Y
18 : 18 : 26.5 : 26.5 : 40
1.19:1 : 1.19:1 1.30:1 : 1.26:1 : 1.30:1
2.65 : 3.78 : 5.84
2.57 : 4.13 : 5.99
(0.78) : (1.26) : (1.83)
+/- 5.0 : +/・ 6.0 : +/- 8.0
1.13 : 1.36 : 1.43 1.71 : 2.65
Typical Phase Stab¡ lity (degree)
TVpical Amplitude Stab"it'y (d B)
Dielectr¡ c Constant (NominaD
Velocity of Propagation (No '^ninal) (%)
Shielding Effe ctiveness
(dB through 18GHz)
Time Dela'y (Nom ¡nal) [ns/ cm (ns/ in)]
⊂enter ⊂onductor
OveI'all DiaIㄲ eter [mm (¡ n)]
Nominal Weight [g/m (oz/η )]
AIIin¡ mum Bend Radius [mm (¡ n)]
Temperatu re Range (ㅇ C)
Solid : Stranded : SoI¡ d
〕The electrical spec¡ ncat¡ onsin thistable are based on a O9m(B6¡ n)assembly・ length and max¡ mum「 requency˙ w¡ th straight connectors.
⌒m
O
˘
ψΦ
O
˜
ㄷㅇ
ㅂτφ:
ㄷ
–
Go'e Cabie Tν pe :
'Ⅵ
aximum Frequency
Tν pical VSWR
Typical lnsertion Loss (dB)
Impedance (NominaD (Ohms)
Γ
:
:
'
/
4
:
6
z
:
0
2
:
5
D
O
G
:
4
⑺
"
,
ㅏ
“
"
ㄸ
0
“
ㄷ
」
<
˘
,
“
ㅏ
∪
"
」
"
Attenuation at 'Ⅵ aximu1ㄲ Frequenc'y : 1.06 (0.32) : 1.30 (0.40)
[dB / m (dB/ftl]
+/- 2.0 : +/- 2.0
4.8 (0.190) : 4.8 (0.19⒥
55.8 : 55.8
(1 7) : (1 7)
25.4 : 25.4
(1.0) : (1.0)
4.8 ⒯.190): (0¾
믐0) : (01:0)
'f# : ''# : 36.1 (m)τ
‘
:
”
.4 (1.0) :
”
.4 (1.0)
m
,
ㅌ
낟
δ
“
ㄸ
>
=
μ
=
˘
"
≡
—55 t0 125
Page 4
1.17:1 : 1.30:1
5. 흉珥協:=
τhBLE 4: ˛oN ‖E˛ㅜoR Op∏ o"s FoR WAFER PRoBE AⅢ D mULTI— PURPosE ASSEⅢ BLI ES
:¨●
-…
●::::: TNC 'Ⅵ ale
: Prec¡ s¡ on N Boχ Right— Angle AIIale
: Precis¡ on N Male
: ::: Go'● C● bl● Type
: :: :: :::: ::::● 두:: ::::: : :●
' : ::: ::●
? : ::: ●7 :: ::: ÷Y:
M裙
{#::: :: :●
⅛:: ::: 1⅛
:: '● .¸ : 2‘ :;:: :: ¼; :
12.4 : T01 : T01 :::
GD
‘
7˙
’
●
1 8
1 8
Q71
Q0 1
1
●1
:
1
w
:
∞
:
∝
Prec¡ sion N Svvept R¡ ght— Angle Male 1 8
Precision N Female
SMA Box Right—Angle Male
1 8
1 8
q02 : Q02
R71 : R71 R71
R01S'ⅥA Male
SAIIA Swept Right— Angle Male
SAIIA Bulkhead Female
SMA Female
TN CA Box R ¡ght— Angle Male
TN CA 'AIIale
TN CA S"vept R ¡ght— Angle Male
TYpe N AIIale
7 mm Hermaphrodit¡ c
3.5 mm Male
1 8
1 8
1 8
1 8
1 8
1 8
1 8
1 8
1 8
26. 5
26. 5
26. 5
4 0
㎾–ⅲ叫:㏁:
㎁ψ:㎝–:
:
:
"
: ㎝:
:
㎹:
⑼:
:
:
血
R01
R11:
R42
RO2
C7il
c01
c1 1
N01
K0 0
D0 1 D01 D01
= lnm Femal-:::-::::::::
2.92 mm Box R¡ ght—Angle Male
:: D11 : D11 :
D02 : D02 : D02 : D02 :
:::: ZQA
2.92 mm Male: 40 ::::: ocQ : oBq :
2.92 mm Svvept R¡ ght— Angle Male : 40
2.92 mm Female : 40
: Z3G
0⊂ P : oBP
2.4 mm Male
2.4 mm Svvept R¡ ght— Angle AIIale
2.4 mm Female
0
:
0
:
o
에:
㎜:
㎿oCK
1.85 mm AIlale: 67
1.85 mm Swept Right— Angle Male : 67
1.85 nㄱ m Female : 67
4The maximu'n operating f''equencyㅇ
f a test assemⅢ y is determined as the lo"Iestfrequencyofeithertheconnectorsorthecable
oBB
oBX
o BA
|—
γ
■
-
L
Ⅲ
Ⅱ
"
6. : :: : 二 :: ㅗ
〓〓〓〓—
一
=一
一一—一—-ㅡ---ㅡ-ㅡ--ㅡ-ㅡ---ㅜㅜTㅜㅜㅜTTTTTT:::::::T : :
—
::TTT=TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTT二 二二二二二Ξ二二二二二二
=二=二
二二二
=二
二
=二=二〓=二〓=〓=二=〓=〓==============================T============干 =干
干
=干
干干干T干干干干干干干干干干T
:RE::m¡
::˛
::'˚:¨aˇ●/ R:F:::⌒ ¸ξ:˚ ⅲ:b:l¡
˚s
H 'GH PowER/ Low Loss AssEmBL● ES
Trad ¡ti0na‖ y, applicat¡ ons that need high povver/ lovv Ioss
asser˙ nblies must compromise on flexibilit'y and s¡ ze. Several highly
flex¡ ble GORE° Microwave/ RF Assemblies deliver low loss and h ¡gh
power— handling capabilit'y in a smaller package ITable 5). Deliver¡ ng
reliable performance up to 18 GHz (Figure 4), these assemblies
have smaller d ¡ameters, making them more 「lexible and easier t0
handle. These cables are available vvith a va ri ety c「 connectors
(Table 6).
TÅ BLE 5: H 'GH PowER/Low Loss
AssEmBtY SPE⊂
' H
⊂A∏ oNS,
::-±i卄표:;::::::::-:::::::i:::ㅏ
TVp ¡caI VSWR
F● GURE 4: m[‖ ●mum ㅜVp'cAt 'NSERㅜ [ON Loss (dB)
FoR H 'GH PowER/ Low Loss AssEⅢ BLI ES’
0.0 ¬
・0. 2
・0.6 :
—0.8 一
・1.0 ・
—
・1.2 i
0 2 4 6 8 10 12 14 16 18 20
Frequen ˛y (G ㅐz)
'The electr¡ cal specihcations in this table ar˙ e ba5ed on a o 9 m (B6 ¡n) a5se'ㄲ bly Iength
and nㄱ aximum frequency witㅏ I straight coㄱ nectors
ㅜABLE 6: ˛oNNE˛ToR OPT● oNS FoR
H ■GH PowER/Low Loss AssEmBLI ES
⌒ㅁ°˘
∽:
ㅇ
:
ㄷ
°–ㄷ
ψ
∽
ㄷ
,
∽
"
,
ㅏ
ㄷ
"
ㄷ
O
α
˛
」
<
˘
,
α
ㅏ
˘
"
」
"
Typ¡ cal Inseㄸ ion Loss (dB) : 0.80
Impedance (Nominal) :
(ohms) :
Attenuation at Maximum : 0.68 : 0.84 : 0.63
Frequenc'y [dB/m (dB/Ft)] : (0.21) : (0.26) : (0.19)
⅜:ㅛ놓;hase
㏜a㏐
"ty : +/・
8.0
Typical Amplitude:
Stabil¡ ty (d B):
D ¡electric Constant :
(Nominai) :
Velocity of PI'opagation :
(NominaD (%):
Shielding Effectiveness :
(dB through 18GHz) :
T¡ me Delay (Nominal)
[ns/cm (ns/in)]
⊂enter ⊂0nductor
1.00 : 0.75
5 0
+/- 6.0 : +/- 15.0
〈+/- 0.05
1.4
8 5
〉100
˛onne˛ tor 丁Ype
TNC hllale
Precision N 'Ⅵ ale
S'ⅥA Box R¡ ght・ Angle
Male
SMA Box Right—Angle
Me!e (IH' gh P:ρ :we
‘
)
SMA 'Ⅵ ale
SMA Male (High PoweO
S'ⅥA Bulkhead Female : 18
SMA Female 18
'#::: Box
ⅲght・ Angle : 18
TNCA Male: 18
TNCA Female: 18
Type N Male: 18
Gore ˛ab [e TYpe
: G6 G, : 8W
m裙
ι罕
q˙
: 18 18 : 18
12.4 : T01 T01 T01
18 : Q01 : Q01 Q01
18R71 R71 R71
1 8ZSK
1 8R01 R01 R01
18Z卜
' 1Z\
1
R42 R42 R42
R02 R02 R02
⊂71C71
c01 c01 c01
⊂02 c02 ⊂02
N01 N01 : N01
里
뵤
ㄹ
요
ㅗ
늘
"
ㅑ
出
≡
Nominal Weight
[g/ i'n (oz/ft)]
'Viinimum Bend Radius[mm (i n)]
Temperature Range (OC)
0.04 (0. 103)
Solid : St''anded : Sol¡ d
—55 to 125
O悛 臼‖ㄺam曲 r [mm (in)]: (0ζ
;0) : (0ζ ;0) : (0ξ :0)
H.2 (● 0):H.2 ⑽: 1"√
ㄼ.1 (1.5) : 兇.1 (1.5): '½
:ξ
, The electr˙ ical specincations in th¡ s table are based on a O 9 'ㄲ (B6 in) assernbly length and
m axi nㄱ um 「requency w¡ th st''aight connecto rs
‘
The maximum operating frequency ㅇfa test assem Ⅲy is determined as the lowest
frequency of eithe'' the connectors or the cable
Page 6
7. ORDER' ‖G 'Ⅲ Fo RmAT■ oⅢ
GORE Microwave/ RF Assemblies are ¡dent¡ Πed by a 12 -character
part nurnber that designates the cable type, connectortypes, and
assembly length (Toble 刀:
:E工깊
Cebl우 Type Conne˛ torA Connector B Asξ emblY Lehgth —T/V
Pos¡ tions 1 -2: The two— character ¡dent¡ fier of the cable
Pos¡ t¡ ons 〕-5 and 6-8: Connector codes A and B in alphanumeric
order
Pos¡ t¡ ons 9-12: The length 0fthe assembly expressed ¡n ¡nches t0
the nearest tenth, indud ¡ng zeroes to n ‖positions ifthe length is
less than three d ¡g¡ ts
Pos¡ tion lB: IdentiΠ er included 0nly 「or an assembly that has been
prepared 「or thern''al vacuu∏ ㄱchanㄱ ber use.
Example part number (posit¡ ons 1 -12): 4Ls01s01012.0
Example part number (positions 1 -13): 4Ls01s01012.0-T/V
ㅜABLE 7: PARㅜ ˛oNF'GURAㅜ ●oⅢ FoR ORDER' ‖G
The GORETㅐ
M
¡˛rowaveIRF Assembly Builder is a step— by— step
tool that aIIows yo'」 to configure and request a quote for a test
assembly with dif「 erent connector opt¡ 0ns, assembly Iengths,
and frequencies. For more inform at¡ 0n, v¡ sit www.gore.com /
rfcablebu ¡lder.
The GORETM Miε rowave/RF Assemb'y Calculator is an online tool
that calculates and compares the insert¡ on Ioss, VSWR, and other
pararㄲ eters for va r¡ ous cable types. For rnore informat'on, v¡ sit
tools. go re. com / gm εa˛a lc.
Asse∏ηb [y TYpe ㅑreqiⅲcy
4L: :
돌 ⅛由표I三≡三
:::TT::=
=
三
=
=
=
:
ㅜSolid
High —Dens ¡ty
I ntercon nects
(Table 1) Sol ¡d
G 1
G 4
5 4
8 9
4 0
4 0
1 8
1 8
Stranded o12.o
12 ¡n lO.30 rn)
024. 0
24 ¡n (0.61 m)
036. o
in (0.91 m)
: See Table ::::¡!!
1 8
,
b
Sol¡ d
G 2
G 91 8
5 0
4 F
,
b
Solid
Solid
Sol ¡d
;ㅗ —
Sol ¡d
Wa「er Probe and
: AIIult¡
-Purpose
: Assembl¡ es
: (Table 3)
G 5
Stranded
: 36
:!˚ : 두!∫
''●
우●:●7: see Table 4
:40: Solid :4Y:
4 0 Solid :GD
Solid
SoI ¡d
So1 ¡d
: 048.0
: 48 ¡n (1.22 m)
: 060.0
: 60 in (1.52 m
H ¡gh Powe r/ LoⅥI
Loss Assemblies
(Toble 5)
Solid
Stranded
: - 'I V :
: - T/V :
: -T/v :
: - T/V :
: - T/V :
: - T/V :
: See Table 6 :
8 w
7 Add ¡tion삶 lengths availaⅡ e upon request
1 8 Sol ¡d
Page 7
l
—
●●
"●
r●f"φ¨e
Tesfl'pfli"‘-●—
::::::{-o,:” ,:::
⌒
:
8. RE Ⅲ¡˛rowave/ RF Asse'ㄲ bl¡ es
RF 'umpER AsSEmBL' ES UP ㄲo 18 Gㅐ z
RFjumper Asserㄲ bi¡ es provide a re[¡ able sol'」 tion for rㄲ ¡crowave
¡nterconnect appl¡ cations that do not requ¡ re traceab‖ ¡ty (Table
8). These 50 ohrㄲ cab:e assembl¡ es do not have serial numbers,
but are 100-percent electr¡ ca"y verified to 18 G ㅐz. Th ey use Iow—
profi le SMA p¡ ns on both ends for compatib¡ l¡ ty with most standard
systems. The SMA pin connector
‘
˙nates w¡ th SMA, 3. 5 mm, and
2.92 mrn socket connectors. Th ese low— profile connectors allow
easy access to system components, makingthem ideal for systelㄲ s
ⅥIith mu[t¡ ple assembi¡ es and l¡ rn ited space.
Gore Part Gore Part
N Oㄲ ⊂E —USE RESTRICㄲONS APPⅡ I
Not for use in food, drug, cosmet¡ c or medical dev¡ ce
manuf¸ cturing, processing, 0r packaging operat¡ ons.
W: L. Gore & Aξso˛¡ates
go re. ˛o m
TÅBLE 8: ORDER' ㅐG [‖ FoRmAㅜ
' o
‖
˚. ' 45 d¡ameter 。.' 9¸ diarneter
m'n'mum :m ¡n ¡mum
TYp¡ ˛at
'nsert¡
on
Loss (dB)
TYp'˛ a' :
' nsert ' on
: Loss fdB,
195-06.0 :
24 : 145-024.0 195 - 24. o
: 36 : 145・ 036.0 1.13
145 -048.0 1 95 -48.0 1.45 :
1 45 -060. o
: 195-72.0 : 2.10
: 96 : 145-096.0 : 4.18 : 195-96.0 : 2.74 :
:-
˙j,¿
: i¼;:i½ b⅛ ':' ;½ ¿:
˙i;;:j,♂ ¿: - ;:;b :