North America, Rosenberger Exploring Directions Surface Mount Tec
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Rosenberger_
North America,
Rosenberger Exploring Directions Surface Mount Technology.
Surface Mount Coaxial Connectors (SMCC) High Frequency Applications.
Released: November, 2000 Prepared David
Rosenberger North America, LLC. P.O. 10113 Lancaster, 17605 Phone: 717.290.8000 Fax: 717.399.9885 Email: info@rosenbergerna.com address: http//www.rosenbergerna.com
Rosenberger Surface Mount Coaxial Connectors (SMCC)
Table Contents
Introduction Rosenberger SMT.3 SMCC High Frequency Applications Rosenberger.5 Standard Rosenberger SMCC Product List Standard Part Drawings Specifications.11 Cable connectors, adapters, loads, calibration devices.39 Calibration Specifications.42 SMCC Product Assembly Instructions.43
Rosenberger_
North America,
Introduction Rosenberger SMT. Improvements surface-mount technology allowing increasingly higher frequency components mounted printed circuit boards lower cost. More more economical devices becoming available frequencies GHz. Rosenberger HF-Technik GmbH Co., Tittmoning, Germany, provides miniature coaxial interface without sacrificing reliability. This novel develop-ment referred surface mount coaxial connector (SMCC). SMP-SMCC Series connector measures presents profile allowing high-density packing PC-board with performance 18GHz. Similarly, MCX-SMCC Series connector measures with performance 6GHz. This high performance been achieved with finite-element analysis during development using HFSS microwave design system from Hewlett-Packard Co., Palo Alto, smooth design controls impedance connectors, allows convert signals from coaxial planar waveguide mode. developers aimed design rules paramount importance: good return loss, dispersion transmission characteristic. With SMCC, footprint important influence electrical performance connector, particularly higher frequencies. this Rosenberger supports their customers with recommended footprints which tuned customers specific application. Results from tests performed demonstration boards show that SMCC connector significant improvement over conventional through hole designs. works well whereas conventional printed circuit boards connectors stop working typically GHz. SMCC provides significant performance improvement well over conventional through hole mount digital communication, important able transmit third order frequency, return loss device better than GHz.
Return Loss [dB]
SMP-SMCC Conventional Connector Frequency [GHz]
Rosenberger_
North America,
What information required from customer provide optimal footprint design application?
Rosenberger SMCC part number. material type. material dielectric constant. thickness. multi-layer? yes, detailed information defining layer structure. Operating frequency range. Desired VSWR. Design Type (micro-strip, co-planar, strip-line, etc.).
Footprint will designed using simulation software available from existing library footprints. mated pairs stack Here sample some existing application scenarios Series: PCB: Straight Plug Straight Jack 6.10mm (0.240") Straight Plug Adapter Straight Plug 9.6mm (0.378") Straight Plug Adapter Right Angle Plug 5.5mm (0.217") Straight Plug Right Angle Jack Cable Terminated 8.2mm (0.323")
PCB:
Daughter Card Backplane:
Surface Cable mated pair side:
These smallest dimensioned mated pairs standard SMCC product. Rosenberger develop custom connectors meet critical dimensions considering opportunity justifies engineering expense. Mated pair dimensions BMA, series combinations available upon request. SSMP, MMCX Series Surface Mount connectors will soon available. Additionally, Rosenberger provides option limited detent, smooth bore interface male connectors. Rosenberger continues press limits performance, state manufacturing processes materials will allow next range performance level ascended.
Surface Mount Coaxial Connectors High Frequency Applications
Bernhard Rosenberger
Rosenberger Technik GmbH Phone 8684 180; 8684 18197 Email:BERND@Rosenberger.de
Abstract first, this paper presents state technology surface mounted connectors with coaxial interface. benefits novel design discussed following. This SMCC integrated transition from coaxial structure planar structure. Fundamentals equipment perform accurate measurements planar structures presented second part this paper. very good measurement results surface mounted connectors indicate success novel SMCC concept developed SMT-connector testify very good viability this concept. Introduction communication electronic circuit designs equipment' require components which allow high density packaging which easy assemble also reduce cost design assembly. surface mount technology meet those requirements. there broad variety components (Surface Mount Technology) available which includes some designs (Printed Circuit
Board) mount connectors also some derivations coaxial connectors. coaxial applications impedance controlled transition from coaxial interface needs design time often customised special solution. These solutions usually standardised increase costs. Since they special designs they cannot used other applications. critical area transition from ,,coaxial world" ,,planar PCB-world" with varieties line structures materials. This critical area handled with novel concept coaxial connectors surface mount-applications. This connector builtin transition from coaxial structure planar structure. More more microwave components embedded planar circuits. CAD-tools allows create good planar circuits simple way, components characterised. following part this paper shows necessary mechanical equipment fundamentals measure scatteringparameter planar devices under test.
substrate highly complicated. frequencies reach GHz. State Technology 5/3-solder connector known classical version coaxial PCBconnector. connector interfaces N-type available this configuration. classical PCB-connector DINInsert. This connector schematically illustrated Fig.
ransitio
interface
feed thru Substrate etal housing
Fig. Simple built-in connector microwave substrate conclusion these drawbacks: advantages technology, necessary create line coaxial connectors which includes following features: Impedance controlled transition from coaxial waveguide PCB. Easy assemble, pick place. Easy cleaning after assembling soldering process. Reduction connector variations. concept transition from coaxial structure planar structure integrated into connector fully impedance controlled interface from connector substrate. connector suit wide range applications, because with connector catalogue footprints match connector kind PCB-materials substrates available. S-parameters support electrical design therefore electromagnetic simulation performed test circuit,-maintaining same parameters with connecterisation without testbed available. Various coaxial interfaces
rsio
Fig. Solder connector critical areas within solder design are: impedance controlled transition given from coaxial connector PCB. frequency range limited. There electromagnetic shielding, caused between connector body. least thru vias connector required. Connectors microwave packaging: There wide range microwave connectors high speed signal transmission. Since impedance matching these frequency ranges very important, standardisation almost impossible. contact area between coax planar
supported mating structure. internal transition made from coaxial coplanar waveguide structure Therefore frequency ranges realised with high repeatability. III. Surface Mount Coaxial Connectors Improvements surface-mount devices (SMD) allow produce electronics components higher frequencies. More more components available frequencies GHz. very good electrical performance SMCC principle result protected coaxial-to planar transition (Patent: 0614.1) This coaxial-to planar transition includes mode-conversion from coaxial waveguide mode planar waveguide mode. this design mode-conversion performed impedance-con-trolled inside connector. design this novel coaxial-to planar transition performed with microwave design system HFSS from Hewlett Packard based finite element analysis. most important design criteria were good return loss dispersion transmission characteristic. However, very dispersion characteristic novel SMCC allows digital applications Gbit/s higher.
Fig. SMCC connector coplanar waveguide Footprint
impedance controlled transition planar structure requires so-called foot-print contact area between SMCC Connector Footprints have been developed available microstrip coplanar wave guides supporting various materials, e.g. duriod-series. Optimal Footprints various Applications ensure optimal electrical performance necessary make optimised footprint. Both footprints (Fig. Fig. optimised substrate with thickness 0.8mm. PCBs with different thickness used recommended approximate coplanar transmission line respectively width microstrip line -system. following schedule shows gaps widths with selection different substrates heights.
Fig. Photograph standard (left )and right solder connector
coplanar application 2GHz h=0.8 r=4.8 0.17 30dB 20dB 0.175 30dB 20dB r=4.8 h=1.5 r=4.8 0.18 30dB 20dB RT6006 h=0.635 0.20 33dB 22dB substrate microstrip application width 2GHz 6GHz 0.91 27dB 27dB 27dB 30dB 18dB 18dB 18dB 20dB
performance interface between coaxial connector planar structure Thus mode-conversion integrated inside novel SMCC influence footprint less important. Fig. shows footprint design coplanar applications another layout microstrip applications. Tab. gives return loss different substrates. Improved Test Accessories SurfaceMount-Applications More more microwave components embedded planar circuits. flexible testfixture with well-matched adapters between coaxial system measurement equipment planar waveguide device under test required determine electrical parameters. high performance test-fixture system including transitions from coaxial 2.92 mminterface microstrip coplanar waveguides been developed (Fig.10). Highest mechanical precision guarantees exact fixing ands positioning connector heads.
Tab.1: return loss MCX-SMCC with different footprints
Fig. Footprints coplanar applications
Fig. Footprints microstrip applications Normally footprint (solder pattern) very important influence electrical
Fig. Photograph designed testfixture Special attention paid ergonomically design test-fixture. position measurement platform easily found using gear rails. Micrometer positioners used exact positioning. Hard soft substrates from length width measured with this novel test-fixture. There limitation height substrate.
measurement platforms hold connector heads. Optional possible connect substrate from four sides. perform system error-corrected network analyser measurements planar circuits, test-fixture calibration substrates required. most popular error-correction procedure (Line-Line-Reflect) method ([3]). Several calibration substrates made either from Teflon (e.g. RT/duroid 5880 from Rogers) aluminium oxide available calibrating testfixture Special attention directed dimension width striplines well ends microstrip lines. Fig. shows these products. calibration network analyser performed R/R-standard, L1-standard, L2-standard measured.
connector SMCC Connector.
SMCC
Substrate
Return Loss Frequency
STANDARD SMCC
Fig.15: Measurement results MCX-SMCC Connector Conclusion simple robust surface mount connector been described. available from frequency ranges structure supports miniature coaxial interfaces such 2.92 Additionally, equipment perform accurate measurements planar circuits been presented. experimental results shown very good performance developed high frequencies accessories.
Fig. calibration substrate R6006m25 (soft material) standard used verify measurement accuracy. measurement accuracy depends precision test accessories mathematical error correction model Testresults SMCC transitions following measurement results were taken from demonstration boards using substrate material measurement chart (Fig. shows reflection values transmission values
References []BOUCHER, Cellular Radio Handbook, Quantum Publishing, Mill Valley Ca., 1995 []HEUERMANN, ROSENBERGER Winkelverbindungselement, submitted 614.1/35 31.10.1995 []EUL, SCHIEK, Generalized Theory Calibration Procedures Network Analyser Self-Calibration IEEE Trans. Microwave Theory Tech., MTT-39, Apr. 1991, 724-731 []HEUERMANN, SCHIEK, Robust Algorithms Network Analyzer SelfCalibration Procedures, IEEE Trans. Instrum. Meas., Feb. 1994, 18-23
Rosenberger_
North America, Standard Surface Mount Coaxial Connector (SMCC) Product List.
Series Part Number 10S101-40MT3 19K101-40ME4 19S101-40ME4 19S141-40ME4 19S101-40MF5 19S201-40ME4 19S202-40ME4 Description Straight Plug. Straight Jack. Straight Plug, Limited-detent interface. Straight Plug, Smooth-bore interface. Straight Plug, Limited-detent. Right Angle Plug, Limited-detent. Right Angle Jack, Limited detent, Similar launch design. Straight Jack. Right Angle Jack. Right Angle Jack, Similar launch design. Straight Jack. Right Angle Jack, Similar launch design. Right Angle Jack, edge mount design. Right Angle Jack. Right Angle Jack. Freq VSWR 3GHz 18GHz 18GHz 18GHz 18GHz 18GHz 26.5GHz 1.33
29K101-40MF3QG 29K201-40ME3 29K203-40ME3
6GHz 1.22 6GHz 1.22 6GHz 1.22
32K10A-40ME3 32K242-40ML5 32K243-40ME3 32K243-600E3 32K244-40ME3
6GHz 18GHz 1.46 18GHz 1.46 12GHz 1.22 12GHz 1.22
Notes: Application specific footprint provided achieve specified performance. standard plating SMP, MCX, though drawing indicate other options. Abbreviations: 0.8µm plated 1.2µm plated 0.8µm plated 0.1-0.4µm plated 1.2µm plated 0.1-0.4 plated 0.15µm plated 6-8µm plated 1.2µm plated Outer Conductor/Body Inner Conductor/Center Gold micro-meter
October, 2000
SMCC Jack
Straight Terminal 101-40M
Electrical Characteristics:
Characteristic Impedance: Frequency Range: VSWR: (mounted with optimized footprint) Insertion Loss: Voltage Rating: Contact Resistance: Center Conductor: Outer Conductor: Insulation Resistance: Power Handling: 1.15 0.10 f(GHz)dB VRMS max. max. 120W@1GHz
Mechanical Characteristics:
Engagement Force: Disengagement Force: Mating Cycles: Center Contact Retention: max. min. min. (axial)
Dimensions:
Mating Dimensions: compatible with
dimensions
Materials:
Outer Conductor: Inner Conductor: Insulator: CuBe gold plated CuBe gold plated PEEK
Environmental Data:
Temperature Range: -65°C +165°C
TS/19K101-40M 10.06.99
SMCC Plug
Straight Terminal limited detent 101-40M
Electrical Characteristics:
Characteristic Impedance: Frequency Range: VSWR: (mounted with optimized footprint) Insertion Loss: Voltage Rating: Contact Resistance: Center Conductor: Outer Conductor: Insulation Resistance: 1.15 0.10 f(GHz)dB VRMS max. max.
Mechanical Characteristics:
Engagement Force: Disengagement Force: Mating Cycles: Center Contact Retention: max. min. min. (axial)
dimensions
Dimensions:
Mating Dimensions: compatible with
Materials:
Outer Conductor: Inner Conductor: Insulator: Brass gold plated Phosphor Bronze gold plated PEEK
Environmental Data:
Temperature Range: -65°C +165°C
TS/19S101-40M 10.06.99
SMCC Plug
Straight Terminal smooth-bore 141-40M
Electrical Characteristics:
Characteristic Impedance: Frequency Range: VSWR: (mounted with optimized footprint) Insertion Loss: Voltage Rating: Contact Resistance: Center Conductor: Outer Conductor: Insulation Resistance: 1.15 0.10 f(GHz)dB VRMS max. max.
Mechanical Characteristics:
Engagement Force: Disengagement Force: Mating Cycles: Center Contact Retention: max. min. min. (axial)
dimensions
Dimensions:
Mating Dimensions: compatible with
Materials:
Outer Conductor: Inner Conductor: Insulator: Brass gold plated Phosphor Bronze gold plated PEEK
Environmental Data:
Temperature Range: -65°C +165°C
TS/19S101-40M 10.06.99
SMCC Plug
Right Angle limited detent 201-40M
Electrical Characteristics:
Characteristic Impedance: Frequency Range: VSWR: 1.15 0.10 f(GHz)dB VRMS max. max.
Insertion Loss: Voltage Rating: Contact Resistance: Center Conductor: Outer Conductor: Insulation Resistance:
Mechanical Characteristics:
Engagement Force: Disengagement Force: Mating Cycles: Center Contact Retention: max. min. min. (axial)
dimensions
Dimensions:
Mating Dimensions: compatible with
Environmental Data:
Temperature Range: -65°C +165°C
Materials:
Outer Conductor: Inner Conductor: Insulator: Brass, gold plated Phosphor Bronze, gold plated PEEK
TS/19S201-40M 10.06.99
SMCC Plug
Right Angle limited detent 202-40M
Electrical Characteristics:
Characteristic Impedance: Frequency Range: VSWR: (mounted with optimized footprint) Insertion Loss: Voltage Rating: Contact Resistance: Center Conductor: Outer Conductor: Insulation Resistance: 26.5 1.10 1.15 1.22 1.33 26.5GHz 0.10 f(GHz)dB VRMS max. max.
dimensions
Mechanical Characteristics:
Engagement Force: Disengagement Force: Mating Cycles: Center Contact Retention: max. min. min. (axial)
Environmental Data:
Temperature Range: -65°C +165°C
Dimensions:
TS/19S202-40M 09.03.99
Mating Dimensions:
compatible with Gilbert
Materials:
Outer Conductor: Inner Conductor: Insulator: Brass, gold plated Beryllium copper, gold plated PTFE
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR: Insertion loss: Isolation resistance: Contact resistance: Center contact: Outer contact Working voltage Test voltage: DC.6 1.10 0.02 (GHz) f(GHz)dB max. max. 1000
Mechanical characteristics:
Engagement force: Disengagement force: Center contact retention force: Connecting operations: max. min. max. min.
Materials:
Outer contact: Center contact: Insulator: Brass, gold plated CuBe, gold plated PTFE
Dimensions:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Mating dimensions:
according CECC 22220
Environmental data:
Temperature range: Climatic class according IEC: +155 55/155/21
Date
Drawn Checked Dept.
Name
24.10.00
Schmid
Specification
101-40M F3QG #1290.16700 Sheet: Straight Jack
MCX,
Repl. Repl.
Rosenberger
SPEC2 0499/TC
Revision
24.10.00
Date
Name
Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR: Insertion loss: Isolation resistance: Contact resistance: Center contact: Outer contact Working voltage Test voltage: DC.6 1.10 0.02 (GHz) f(GHz)dB max. max. 1000
Mechanical characteristics:
Engagement force: Disengagement force: Center contact retention force: Connecting operations: max. min. max. min.
Materials:
Outer contact: Center contact: Insulator: Brass, gold plated CuBe, gold plated PTFE
Dimensions:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Mating dimensions:
according CECC 22220
Environmental data:
Temperature range: Climatic class according IEC: +155 55/155/21
Date
Drawn Checked Dept.
Name
24.10.00
Schmid
Specification
201-40M #1290.14401 Jack
MCX,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
24.10.00
Date
Name
Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR: Insertion loss: Isolation resistance: Contact resistance: Center contact: Outer contact Working voltage Test voltage: DC.6 1.10 0.02 (GHz) f(GHz)dB max. max. 1000
Mechanical characteristics:
Engagement force: Disengagement force: Center contact retention force: Connecting operations: max. min. max. min.
Materials:
Outer contact: Center contact: Insulator: Brass, gold plated CuBe, gold plated PTFE
Dimensions:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Mating dimensions:
according CECC 22220
Environmental data:
Temperature range: Climatic class according IEC: +155 55/155/21
Date
Drawn Checked Dept.
Name
24.10.00
Schmid
Specification
203-40M #1290.16500 Jack
MCX,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
24.10.00
Date
Name
Hochfrequenztechnik_
DATA SHEET
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR: Insertion Loss: Insulation resistance: Center contact resistance: Outer contact resistance: Test voltage: Working voltage: Power handling: DC.6 1.10 0.02xf(GHz) 5x10 1000
Mechanical characteristics:
Coupling torque: min. max. rec.
Alle
Rechte Rosenberger Hochfrequenztechnik GmbH, auch Fall Schutzrechtsanmeldungen. Jede Kopier- Weitergaberecht uns.
Center contact retension force: axial: radial: Connecting operations:
Materials:
Outer contact Connector body: Center contact: Insulator: Brass, CuBe, 1.27 PTFE
Dimensions:
Mating dimensions according: MIL-C-39012, 169-15; CECC
Environmental data:
Temperature range: Vibration: Shock: Humidity: Corrision resistance: Temperature cycle: Climatic class according IEC: +165 MIL-STD-202 Meth. 204/B MIL-STD-202 Meth. 204/D MIL-STD-202 Meth. 106/B MIL-STD-202 Meth. MIL-STD-202 Meth. 102/C
Bearb. Drawn Gepr. Checked
Datum /Date
Name
16.06.99
Schmid
Norm/STD Abt./Dept.
Specification 10A-40M SMA-SMT
straight Jack
Ers. Repl. Ers. Repl.
Blatt/Sheet
SPEC1 0397/PC
Zustand Status
Rosenberger
Revision Datum Date
Name Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR Insertion loss: Insulation resistance: Center contact resistance: Outer contact resistance: Test voltage: Working voltage: Power handling: RF-leakage DC.18 1.10 0.02xf(GHz) max. 5x10 1000
Interface only, reachable values application depends decisive layout pcb.
Mechanical characteristics:
Coupling torque: Test torque: Recommended torque: Center contact retension force: Connecting operations:
Materials:
Outer contact Connector body: Center contact: Insulator:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Brass, gold plated CuBe, gold plated PTFE
Dimensions:
Mating dimensions according: 60169 PT15, 122110, MIL-C-39012
Environmental data:
Temperature range: Climatic class according IEC: +165 55/155/21
Date
Drawn Checked Dept.
Name
23.10.00
Schmid
Specification
242-40M #1320.67140 Right Angle Jack
SMA,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
23.10.00
Date
Name
Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR Insertion loss: Insulation resistance: Center contact resistance: Outer contact resistance: Test voltage: Working voltage: Power handling: RF-leakage DC.18 1.10 0.02xf(GHz) max. 5x10 1000
Interface only, reachable values application depends decisive layout pcb.
Mechanical characteristics:
Coupling torque: Test torque: Recommended torque: Center contact retension force: Connecting operations:
Materials:
Outer contact Connector body: Center contact: Insulator:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Brass, gold plated CuBe, gold plated PTFE
Dimensions:
Mating dimensions according: 60169 PT15, 122110, MIL-C-39012
Environmental data:
Temperature range: Climatic class according IEC: +165 55/155/21
Date
Drawn Checked Dept.
Name
23.10.00
Schmid
Specification
243-40M #1320.90240 Right Angle Jack
SMA,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
23.10.00
Date
Name
Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR Insertion loss: Insulation resistance: Center contact resistance: Outer contact resistance: RF-leakage DC.17 1.10 DC.6GHz 1.22 6.12GHz max. 5x10
Interface only, reachable values application depends decisive layout pcb.
Mechanical characteristics:
Coupling torque: Test torque: Recommended torque: Center contact retension force: Connecting operations:
Materials:
Outer contact Connector body: Center contact: Insulator: Brass, gold plated CuBe, gold plated PTFE
Dimensions:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Mating dimensions according:
60169 PT15, 122110, MIL-C-39012
Environmental data:
Temperature range: Climatic class according IEC: +165 55/155/21
Date
Drawn Checked Dept.
Name
23.10.00
Schmid
Specification
243-600 #1320.05400 Right Angle Jack
SMA,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
23.10.00
Date
Name
Hochfrequenztechnik_
Electrical characteristics:
Characteristic impedance: Frequency range: VSWR Insertion loss: Insulation resistance: Center contact resistance: Outer contact resistance: Test voltage: Working voltage: Power handling: RF-leakage DC.18 1.10 0.02xf(GHz) max. 5x10 1000
Interface only, reachable values application depends decisive layout pcb.
Mechanical characteristics:
Coupling torque: Test torque: Recommended torque: Center contact retension force: Connecting operations:
Materials:
Outer contact Connector body: Center contact: Insulator:
THIS DRAWING EXCLUSIVE PROPERTY ROSENBERGER HOCHFREQUENZTECHNIK GMBH WITHOUT THEIR CONSENT REPRODUCED GIVEN THIRD PARTS.
Brass, gold plated CuBe, gold plated PTFE
Dimensions:
Mating dimensions according: 60169 PT15, 122110, MIL-C-39012
Environmental data:
Temperature range: Climatic class according IEC: +165 55/155/21
Date
Drawn Checked Dept.
Name
23.10.00
Schmid
Specification
244-40M #1320.96100 Right Angle Jack
SMA,
Repl. Repl.
Sheet:
Rosenberger
SPEC2 0499/TC
Revision
23.10.00
Date
Name
Hochfrequenztechnik_
Rosenberger_
North America,
Summary (RT-SP), SMP, MCX, Series cable connectors, adapters, loads, calibration devices. Cable terminated mates SMCC product: Straight Jack cable: 10K125-271S3 10K125-272S3 10S125-271S3 10S125-272S3 19K102-101E3 19K101-102E3 19K101-103E3 19K101-270E3 19K101-271E3 19K202-301E3 19K201-302E3 19K201-303E3 19K201-270E3 19K201-271E3 29S101-101E3 29S101-102E3 29S101-103E3 29S101-270E3 29S101-271E3 29S201-301E3 29S201-302E3 29S201-303E3 29S201-270E3 29S201-271E3 32S1XX-302XX 32S1XX-303 32S1XX-306 32S1XX-307 32S101-270 32S101-271 32S101-272
Straight Plug cable:
Straight Jack cable:
Right Angle Jack cable:
Straight Plug cable:
Right Angle Plug cable:
Straight Plug cable:
Rosenberger_
North America,
Right Angle Plug cable: 32S2XX-302 32S2XX-303 32S2XX-306 32S2XX-307 32S2XX-271 32S2XX-272
NOTE: part numbers provided base part numbers Series connectors available Beryllium Copper, Brass, Stainless Steel bodies, well several plating options. Please contact Rosenberger, your local Rosenberger Representative complete part number. SMCC Between Series Adapters: 03K110-K00S3 03K110-S00S3 19K102-K00E3 19K132-K00E3 19S132-S00S3 02K119-S00S3 02K119-K00D3 02S119-S00S3 02S119-K00D3 29S101-S00E3 29S132-K00E3 SMCC Loads: 19K15R-0.5E3 29S15R-0.5E3 32S15R-0.5E3 Termination. Termination. Termination. Adapter, 3.50 Adapter, 3.50 Adapter, Adapter, Adapter, Adapter, 2.92 Adapter, 2.92 Adapter, 2.92 Adapter, 2.92 Adapter, Adapter,
Rosenberger_
North America,
Rosenberger Calibration Kit: Part 19CK10A-150 include following items: Load Load Short Short Open Open Phase Matched Adapter (f-f) Phase Matched Adapter (m-m) Phase Matched Adapter (m-f) cables: SMP(m) SMA(m), Cable, 60cm length. Male interface: Female interface: Limited detent. Standard.
Full Standard Calibration Kits available specific customer request. Specify adapter types required. Refer specifications attached.
Economy Coaxial Calibration 10A-150 Specifications
Nominal Impedance: Wellenwiderstand:
Calibration procedure Kalibrierverfahren Frequency range: Frequenzbereich: [GHz] TMSO
0.04
0.04
0.04
Source match: Quellenanpassung: [dB] 40MHz 4GHz 4GHz 18GHz
Description
Specification reflection Frequency range coefficents Beschreibung Frequenzbereich Spezifikationen Refexionskoeffizienten
40MHz 4GHz Magnitude: -26dB Betrag: -26dB Magnitude: -23dB Betrag: -23dB Magnitude: -0.20dB Phase: 180° 0.50° Betrag: -0.20dB Phase: 180° 0.50° Magnitude: -0.30dB Phase: 180° 2.5° Betrag: -0.30dB Phase: 180° 2.5° Magnitude: -0.25dB Phase error: 2.5° Betrag: -0.25dB Phasenfehler: 2.5° Magnitude: -0.40dB Phase error: 5.0° Betrag: -0.40dB Phasenfehler: 5.0° S11: -23dB S21: -1.6dB/m S11: -20dB S21: -3.5dB/m
Fixed match
4GHz 18GHz
40MHz 4GHz
Short circuit
Offset: 7.00mm
Offset: 7.00mm
4GHz 18GHz
40MHz 4GHz
Open circuit
Offset: 7.00mm
Leerlauf
Offset: 7.00mm
4GHz -18GHz 40MHz 4GHz
Cables
Kabel
4GHz -18GHz
Date: 31.05.1999 Datum: 31.05.1999
Rosenberger_
North America,
Rosenberger SMCC Product Assembly Instructions. design consideration typically recognized initially manufacturing process used once production commences. This just important connector performance size; however, often devalued and/or overlooked. Rosenberger SMCC product only provides superior performance quality, also tape reel packaging available facilitate high volume automated production. following step step process instruction assembly Rosenberger SMCC. Rosenberger SMCC products typically assembled boards same standard procedures used other electronic surface mount devices. Thus, there special exceptions made when using SMCC product. Below replies some common customer questions. there issues addressed below which require further information, please hesitate contact Rosenberger North America. Board layout footprint? Rosenberger provides, additional charge, optimal footprint each SMCC specific customer's application. With High Frequency Software Simulation (HFSS), relevant board information allows development proper layout each application. Normally, customer supplied information concerning board material type, board material thickness, board material dielectric constant that necessary generate optimized footprint ensure proper electrical performance. Solder Process Type? Normally Solder Re-Flow used. Solder Paste Type? Standard solder paste used SMCC. There special requirements type. customer same paste being used mount other surface mount devices such resistors, transistors, capacitors, .etc. Solder Paste Thickness? Typically 0.2mm thick solder paste applied solder pad.
Rosenberger_
North America,
Solder Paste Application? Stencils used apply solder paste board. precise footprint necessary construct accurate stencil. Part Placement PCB? Rosenberger SMCC products available tape reel high volume automated assembly. Standard video pick place equipment provides most accurate placement component board pad. Pick place vacuum nozzle, picker (gripper) acceptable. Plastic insulators connector allow either picking equipment. Tolerances part misalignment when located board dependent precision stencil out. Oven Temperature, Time? Oven temperature, time same required other components. changes necessary.
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