4. 2
Company Introduction
Background & Milestone 4
Core Technology 4
5G NR Products
BBox™: Beamforming Development Kit 6
BBox™ Specification 10
UD Box: Frequency Conversion for 5G NR FR2 11
Applications in 5G NR 13
Antenna-in-Package (AiP)
Overview 14
Highlights 14
5. 3
mmWave Product
Application Diagram 16
Phase-Locked Oscillators 18 - 21
Dielectric Resonator Oscillators (DRO) 22
Signal Generators 23
Amplifiers 24 - 25
Frequency Conversion 26 - 28
Digital Controlled Attenuators (DCA) 30
Digital Controlled Filters (DCF) 30
Digital Controlled Phase Shifters (DPS) 30
Digital Controlled Switches and Matrices (DSW) 30
Baluns 32
Bias Tees 32
DC Blocks 32
Filters 32
Power Combiners/Dividers 32
High Frequency Connectors
Multi-Coaxial Connectors 36
Nicomatic Micro Connectors 36
Selection Guideline 38
6. Company Introduction
Background Milestone
TMYTEK is a young and enthusiastic team with big dreams. We begin as mmWave experts. Small team but very motivated.
As we grow, we become mmWave and software integration experts. Not only can we provide mmWave products and
services, we are able to integrate them with software control which makes it very user friendly. But that is not all.
Our journey moved on, as we have a mission. TMYTEK’s mission is to contribute and to realize internet everywhere with
our mmWave technology. So we strive to make this dream not only a dream but a reality.
Today, we are the world’s leading 5G beamforming solution provider.
Core Technology
Hardware Technologies
Millimeter-wave and RF front end solution is our specialty. TMYTEK has teams with over 10 years of experience in the
mmWave front end component and system designs. We are capable of designing both active and passive components as
well as systems for frequencies up to 110 GHz. On top of that, we can fabricate our designs and do the verification tests
all in our own mmWave laboratory. It is also worth mentioning that we are experts in integrating mmWave components
with software embedded systems.
Expertise:
• Design, fabricate and integrate microwave circuits for frequencies up to 110 GHz
• Active and passive circuit designs
2014
2015
2016
2017
2018
2019
Founded in Taipei, Taiwan in September
Received order for mmWave PLO from WNC
Received first 5G order for 5G up/down converter
from CSIST
Received order from Anritsu
Announced BBox to the world
Announced the fastest delivery of PLO in the
worldwide
Founded mmWave lab, TMXLAB, with Anritsu
Approved pre-A round financing
Won CIAT accelerator program among 100+ startups
Nominated and Won EDI CON 2019
Innovation Award
7. • Customized Define Project (CDP) for both component and system level
• Cryogenic electronics designs
• High frequency connector and socket designs
• Housing and waveguide designs
• 5G solution provider
• MMIC designs
Capabilities
• Wire-bonding
• System-in-Package (SiP) micro assembly
• Semiconductor packaging
• Mixed assembly technology
• Thin film microstrip components fabrication
• High Frequency PCB Manufacturing
• Die placement and attachment
• Microwave Consultant
Lab instruments
• Up to 110 GHz Vector Network Analyzer (VNA)
• Up to 40 GHz Spectrum Analyzer
• Up to 40 GHz Signal Source Analyzer
• 40 GHz Power Meter
• Probe Station
• Wire Bonder
• PCB milling
• DLP FDM 3D Printer
Software Technologies
Software plays a critical role in the modern communication system. In our products, we use ARM-based MCU to build
embedded systems. Systems such as Real-time Operating System (RTOS) or embedded Linux are also developed in
house to provide the flexibility of system design. Our software development closely integrates with our microwave/
mmWave systems to provide the RF systems with friendly user interfaces (UIs) and control Application Programming
Interfaces (APIs) for various protocol and interfaces.
Algorithm
Beam steering algorithm is the key to 5G NR mmWave. With the help of our BBox and UD Box, it has never been so easy
to develop protocols and algorithms. We have worked with a couple of labs for advanced beam tracking algorithms. On
the other hand, beam shaping also needs software implementation, and that’s one of the many features we have in our
AiP product.
GUI
We build user-friendly GUI for our 5G BBox, up/down converter, PLO, and signal generator. Advanced cross-platform
application technologies are used, such as Electron.js and more.
API
Software API is essential to third-party applications. We release API for our beamformer BBox, up/down converter, and
many other products to help our customers realize the applications they need.
8. 6
5G NR Products
BBox™: Beamforming Development Kit
Introduction
Phase array is mandatory in 5G mmWave 28/39 GHz bands due to the small antenna gain. Analog beamforming turns
out to be the most critical technique in RD. The market is currently lack of a tool to control phase and amplitude. The
creation of BBox by TMYTEK is to fill up this gap. TMYTEK’s BBox consists of several building blocks as depicted below.
Antenna array kits.
As a reference design
4x4 8x8 array
Phase shifter, variable
attenuator, PA, LNA,
and T/R switches.
RF channel selectors
(SP4T/SP8T RF switches
or 2x2/4x4 RF matrics)
Up/Down converter
with internal Phase-
Locked Oscillator
Baseband equipment
BBox system architecture
TMYTEK build all necessary components for 5G NR mmWave development
System Overview
AA-Kits
AA-kits are our standard antenna kits offered to be used in conjunction with our ΦA box. It is specifically designed
for our ΦA box for minimum path and phase loss. Our standard kits include up to 64 antenna elements kits.
ΦA Box
The main part for phase and attenuation control covering the frequency range of 25 to 31 GHz (the 39 GHz band
BBox will be available in 2020 Q1). It is compactly designed with the options to choose from 4 channels (BBox Lite)
and 16 channels (BBox One). It is controlled by high-speed control interface and works perfectly with our AA-Kits.
BB-Switch /Matrix
BB-Switch is the RF channel selector for use when several ΦA Boxes are used together. TMYTEK offers up to four ΦA
Boxes to be used synchronously. This box have internal SP4T or SP8T RF switches for up to 50 GHz. BB-Matrix works
similar to BB-Switch except it offers the matrix function for customers who wishes to do MIMO transmission.
AiPmmWaveConnectorsUDBoxBBox5GNR
1
2
3
1
2
3
4
5
9. 7
AiPmmWaveConnectorsUDBoxBBox5GNR
UD Box
Conversion to / from 28 GHz band (39 GHz is also covered in our UD Box) with a built-in local oscillator (LO). Our
UD Box covers a very broad range of frequencies including all of the possible 5G NR bands (24/26/28/39 GHz):
• RF band : 24 to 44 GHz
• IF band: 0.01 to 14 GHz
• Adjustable LO band: 16 to 32 GHz
• Single or Dual channels
Baseband equipment
Our BBox has been tested with various baseband instruments on the market. Major analyzers work well with our
setups. This proves the usability of BBox system and enables a wide range of research topics that can be done,
including protocol algorithm, beam tracking algorithm and more.
Software GUI/API
At TMYTEK, we customize our own software control for our BBox product line. The BBox can be controlled either by
software user interface (UI) or Application Programming Interface (API) which are both developed in house by our
software team. The software UI is easy to understand and allows users to get a quick start on beamforming while
the API is for advanced users who are ready to run their own beamforming sequences. The software control can
run on either mini USB or RJ45 Ethernet interface.
4
5
6
6 Software GUI of BBox™ One
10. 8
BBox One vs BBox Lite
TMYTEK has created two versions of BBox: BBox™ One and BBox™ Lite. BBox One is a 16-channel phase array
integrated with AA-kit, ΦA Box, and software control aimed to emulate base station beamforming performance. BBox
Lite is a 4-channel phase array integrated with AA-kit, ΦA Box, and software control aimed to emulate UE beamforming
performance. More details are being compared below.
BBox™ One BBox™ Lite
No. of Controllable Channels 16 4
AA-Kit (detachable) 4x4 or 8x8 array Series Patch
Beamsteering Dimension 2D 1D
Target Emulation Small Cell UE (smart phone, tablet)
Software Control UI or API UI or API
Control Interface RJ45 or mini USB RJ45 or mini USB
Size (with AA-kit) 156 x 62 x 62 mm 125 x 102 x 110 mm
BBox™ One
BBox™ Lite
AiPmmWaveConnectorsUDBoxBBox5GNR
11. 9
BBox Architectures
(UI or API)
Detachable antenna
Testyour antenna design quickly.
Low lossSMPM connectors Phase and amplitude control with
TMYTEK’s well-designed UI.
LAN control
AiPmmWaveConnectorsUDBoxBBox5GNR
ΦA
Box
ΦA
Box
ΦA
Box
ΦA
Box
Digital Beamformer
Channel Selector
Digital Signal Processing
A / D converter
Up / Down Converter PLO
BB
Switch
UD
Box
Φ
Φ
Φ
Architecture 2: ΦA Control (Optional LNA/PA)
Architecture 1: TR Switch + LNA/PA + ΦA Control
Control
Host
Optional
PA
LNA
BB Brain
AA Kit
IF Port
12. 10
UD Box: Frequency Conversion for 5G NR FR2
Overview
5G NR FR2 defines mmWave band ranges from 24250 to 52600 MHz. High-frequency carrier benefits the bandwidth, but
the disadvantage is the cost of testing is high due to the expensive mmWave instruments, cables, and connectors. Down
convert the RF to IF is mandatory in the production lines to save the cost.
Moreover, in modern communication architecture we need to be at IF to benefit from better amplification and sharper
filtering. TMYTEK has built a 5G dedicated up/down converter (UD Box) to fulfill the market. Our wideband UD Box
covers RF from 24 to 44 GHz, meeting the FR2 band n257/n258/n260/n261. The IF ranges from 0.01 to 14 GHz and the
adjustable LO starts from 16 to 32 GHz.
Feature Highlights
Built-in LO makes TMYTEK UD Box unique and also easy on testing. No more worries about the LO source and it can even
reduce the size of the overall setup. We have two models of UD Box: Single-channel and Dual-channel. Single-channel is
useful in the scenario of long distance remote transmission experiments and more. Dual-channel is excellent to be used
in the chamber/compact range cases where dual-polarization need to be measured at the same time.
Architecture
UD Box Single Block Diagram UD Box Dual Channel Block Diagram
AiPmmWaveConnectorsBBox5GNRUDBox
13. 11
BBox™ and UD Box Specification
Standard Products
Customization Requirement
If you require any customized BBoxTM
, please contact us for more details. We also offer 39 GHz and sub-6 GHz solutions.
BBox Module
Part
Number
RF
(GHz)
Tx EIRP
(dBm)
Transmitter Max.
Gain
(dB)
Receiver Max.
Gain
(dB)
Phase Shifter
Range (˚)
Attenuator
Range
(dB) Package (mm)
BB-LITE-JF-28-04 25-31 29 46 31 360 20 125 x 102 x 110
BB-ONE-JF-28-4x4 25-31 36 44 34 360 20 156 x 62 x 62
BB-ONE-JF-28-8x8 25-31 41 49 39 360 20 156 x 62 x 62
AA-Kits
Part
Number Antenna Type
NR Frequency
Band
3 dB
Bandwidth
(GHz)
Antenna Array
Gain (dB)
Broadside
Beamwidth (˚)
Beam Steering
Range Package (mm)
BB-LITE-ANT-28-04 Series Patch n261 27.5 - 28.35 15.0 ±11.0 ±45 84 x 67 x 8.7
BB-ONE-ANT-28-4x4 4x4 Patch n261 27.5 - 28.35 17.0 ±13.0 ±60(V)/±45(H) 62 x 62 x 12
BB-ONE-ANT-28-8x8 8x8 Patch n261 27.5 - 28.35 22.0 ±6.5 ±25(V)/±25(H) 62 x 62 x 12
BB-Switch
Part
Number Switch Type RF (GHz)
Insertion Loss
(dB) Isolation (dB) IIP3 (dBm) Package
BB-SW-SP4T-0050 SP4T 0.05 - 50 0.7 41 40 TBD
UD Box
Part
Number RF (GHz) LO (GHz) IF (GHz)
Conversion
Loss (dB)
Supply
Voltage (V)
No. of
Channels Package
BB-UDC-2444-0014-(S/D) 24 - 44 16 - 32 0.01 - 14 10 15 Single or Dual 139 x 152 x 77
AiPmmWaveConnectorsUDBoxBBox5GNR
14. 12
Applications in 5G NR
Antenna Designer Kit
Flexibility is the first key point we consider when we built BBox. We would like the designer of mmWave antenna to focus
on the antenna design itself. Complying with standard K- or SMPM connectors, antenna engineers can test different
structures, bandwidth, central frequency, and even meta-materials with a single ΦA Box.
Protocol and Algorithm Developer
Beam tracking algorithm and many other baseband or protocol related topics are the key parts in 5G mmWave
communication. However, to have an easy-to-use device performing beamforming and beam steering was just a dream
before. Today, TMYTEK’s BBox is an excellent RF front end that can perfectly work with UD Box (up/down converter) and
baseband instrument, such as NI’s USRP.
For Baseband Designers
For Antenna Designers
AiPmmWaveConnectors5GNRBBoxUDBox
15. 13
Production Line
The traditional methodology for mmWave beam pattern identification is to use the combination of horn antennas and
mechanical rotator. However, mechanical rotation is time-consuming. Multiple horns along with high-frequency cables,
connectors, and instruments can be very expensive. As an alternative, the combination of BBox and UD Box perfectly
solve both the test speed and the cost issues. BBox is a great RF probe that is able to steer the beam in an electronic
fashion which can be very fast. UD Box is used to bridge the RF and IF domain. Lowering the frequency of IF domain also
saves the cost of cables, connectors, and instruments.
For Production Line
AiPmmWaveConnectorsUDBoxBBox5GNR
16. 14
Antenna-in-Package (AiP)
Overview
The 5G era is coming soon. Massive deployment is expected in 2021 worldwide. It is time to start testing hybrid
beamforming on small cells in various situations and conditions. We will need a phased array AiPs to do this. This is
where TMYTEK come into the picture. We have been helping our customers designing and manufacturing AiP for 5G
communication applications for the past years. We currently offer two types of AiP– one is standard AiP and the other is
scalable AiP.
Our standard AiP module includes 1x8 array and 4x4 array both operating at the n261 NR frequency band. The other FR2
bands will be available soon. Our scalable AiPs are designed with flexibility in mind. Its size is scalable ranging from 8x8
array up to 4K array. This design is used to fit customers’ various needs for different setup scenarios and applications.
To meet the 5G market, we have developed the technology to build up/down converter into the AiP. This makes our
module IF ready and it also saves the cost of high-frequency connectors and cables. Our AiP is made ready to help users
to prepare, design, test and deploy beamforming solutions for small cells and 5G research. More details are outlined
below.
Highlights
Scalability Large Array
To form a large phased array is a very challenging task. This highly integrated packaging would ramp up issues like heat
management, yield rate, hard-to-repair, mechanical alignment and so on. The reasonable approach is to divide-and-
conquer. A unit module with 8x8 patches makes more sense to 5G small cell and CPE in terms of EIRP. By arranging
multiple unit cells in one large motherboard, we can form a larger array. In some application, 4K even 8K array is
possible. This all can be addressed by our technology.
IF Ready
In modern communication, converting RF to IF is essential for signal processing purpose. The highest benefit of using IF is
to reduce the cost of the connectors on the AiP modules. This is very critical for massive deployment. TMYTEK designs our
own mixer and local oscillator (LO) and makes the up/down conversion as a built-in feature.
Customizable
TMYTEK is familiar with almost all beamforming chips on the market. Customizing the AiP with specific array size,
optimized for different frequency band, or single or dual polarization, are all possible.
mmWaveConnectors5GNR
AiP
17. 15
Fixed Size AiP
Part
Number
NR
Frequency
Band RF (GHz)
Tx EIRP
(dBm)
Tx Total Gain
(dBi)
Rx Total Gain
(dBi)
Phase Shifter
Range (˚)
Attenuator
Range (dB) Package (mm)
AIP-JF-28-4x4 n261 27.5 - 28.35 41 49 35 360 15 40 x 27 x 3
AIP-JF-28-1x8 n261 27.5 - 28.35 21.5 40 24 360 15 50 x 20 x 3
Unit Module AiP
Part
Number
NR
Frequency
Band RF (GHz) IF (GHz)
Tx EIRP
(dBm)
Tx Total Gain
(dBi)
Phase Shifter
Range (˚)
Attenuator
Range (dB) Package (mm)
MAIP-JF-28-8x8 n261 27.5 - 28.35 0.01 - 6 53 53 360 15 61 x 40 x 1
Customization Requirement
If you require any customized AiP, please contact us for more details. We also offer 39 GHz and sub-6 GHz solutions.
UE vs. gNB (Base station)
UE (User Equipment) typically uses a small size array. Our standard 1x8 AiP was built to emulate a mobile device like a
tablet. Smartphone chip makers mostly adopt 1x4 or 2x4 array size to reduce the footprint of the module. On the other
hand, gNB, the 5G base station, would need a larger array to meet the EIRP requirement. Array such as 8x8, 64x64, or
even bigger is possible. TMYTEK is ready to build all kinds of AiP to fulfill the market.
Specification
5GNRConnectorsAiPmmWave
18. 16
mmWave Product
Application Diagram
Up/Down Converter
xN
Digital
Signal
Processing
Digital
Signal
Processing
DAC
DAC
ADC
ADC
Mixer
Mixer
I
Q
I
Q
Balun
AMPMultiplierPLO/PLDRO
LNA
PA
Tx
Driver AMP
Filter Filter
Ant
T/R Switch
Rx
Switch
Balun
Filter
Filter
Filter
Filter
AMP
AMP
AMP
AMP
Wireless Transceiver
ConnectorS5GNRAiP
mmWave
8~12 GHz
U/D Converter
BPF
Doubler
Line Amplifier
PLO
Clock
HPFLPF
IF Frequency RF Frequency
Mixer
REF
24~44 GHzDC~12 GHz
16~24 GHz
19. 17
5G Beamforming
FMCW (Frequency-Modulated Continuous Wave) Radar System
Flash
Memory
RAM DSP
RX1
TX
DSP Module RF Module
MOD
ROM
RX2
MixerFilter
AMP
AMP
AMP
PA
LNA
LNA
Page 20-21
LO
Digital Filter
50Ω
Terminator
Balun
Power Divider
I
Q
I
Q
0° 90°
0° 90°
Mixer Power Divider
Transmitter Receiver
BBox
Φ
Φ
Φ
Φ
BasebandCombiner
LNA
RF Beamforming
ADC
ADC
Digital
Beamforming
Φ
Φ
Φ
Φ
DAC
DAC
PA
RF Beamforming
BBox
BasebandPrecoder
Digital
Beamforming
5GNRAiPConnectorsmmWave
20. 18
Phase-Locked Oscillators
TMYTEK’s Phase-Locked Oscillators are the industry standard and available in high-performance surface-mount,
evaluation board, and connectorized packages. Products are available in broad frequencies range up to 45 GHz, and are
optimized for commercial wireless, instrumentations, healthcare devices, aerospace and military applications.
TMYTEK provides the fastest customized PLO products. All of our customized PLOs will be designed, tested and delivered
within 7-14 days*14
with NO MOQ and no NO NRE charge to save time and budget for our valued customers. No more
worries about inventory spacing since TMYTEK’s ReFTM
technology can help to reconfigure the module with different
frequencies for your next projects.
TMYTEK’s PLO provides Single Multiple frequency options. Single frequency (SF) outputs single and precise frequency
as per your request. Multiple frequencies (MF) offers up to 32 pre-configured frequencies to be selected digitally.
*1 Only for SMT module under 200 pcs
5GNRAiPPLOSingalGenerator
mmWave
ConnectorS
21. 19
Phase-Locked Oscillators
Standard Products
Single Frequency Single Output (SFSO)
Part
Number
Selectable
Frequency Range
(GHz) Pout (dBm)
Phase Noise
at 100 kHz offset
(6 GHz) (dBc/Hz)
Supply Voltage
(V) Package
SFSO-TVS6-(freq)-S/E/C 0.05 - 6 +1 to +5
120 (RF = 1.2 GHz)
-108 (RF = 4.8 GHz)
7 S, E or C *4
SFSO-TV01-(freq)-S/E/C 2 - 16 *2
-7 to +6 *3 -92.5 (RF = 6 GHz)
-86.5 (RF = 12 GHz)
7 S, E or C *4
SFSO-TV02-(freq)-C 16 - 32 +10 to +15
-89.2 (RF = 24 GHz)
-87.0 (RF = 28 GHz)
7 Connectorized
SFSO-TV03-(freq)-C 32 - 45 +12 to +18
-77.5 (RF = 32 GHz)
-74.1 (RF = 44 GHz)
7 Connectorized
Multiple Frequency Single Output (MFSO)
Part
Number
Selectable
Frequency Range
(GHz)
Frequency
sets
Minimum
Step Size
(MHz) Pout (dBm)
Phase Noise
at 100 kHz offset
(6 GHz) (dBc/Hz)
Supply
Voltage
(V) Package
MFSO-TVS6-(freq)-S/E/C 0.05 - 6 Up to 32 1 +1 to +5
-120 (RF = 1.2 GHz)
-108 (RF = 4.8 GHz)
7 S, E or C *4
MFSO-TV01-(freq)-S/E/C 2 - 16 *2 Up to 32 1 -7 to +6 *3 -92.5 (RF = 6 GHz)
-86.5 (RF = 12 GHz)
7 S, E or C *4
MFSO-TV02-(freq)-C 16 - 32 Up to 32 2 +10 to +15
-89.2 (RF = 24 GHz)
-87.0 (RF = 28 GHz)
7 Connectorized
MFSO-TV03-(freq)-C 32 - 45 Up to 32 4 +12 to +18
-77.5 (RF = 32 GHz)
-74.1 (RF = 44 GHz)
7 Connectorized
TV Series
5GNRAiPPLOSingalGeneratormmWave
Connectors
Order example
If you need to order multiple frequency PLO, please list the frequencies you need. For example:
Example 1:
20, 21, 22, 23, 24, 25, 26, 27, 28 GHz (9 frequencies)
Example 2:
20 to 28 GHz (step 1 GHz)
4 5 6
*2 RF 1 frequency range is 1.925 to 8 GHz, RF 2 frequency range is 7.7 to 16 GHz
*3 Pout at RF 1 is +2 to +8 dBm, Pout at RF 2 is -1 to +5 dBm
*4 S for SMT, E for evaluation board, and C for connectorized module
22. 20
Single Frequency Single Output (SFSO)
Part
Number
Selectable
Frequency Range
(GHz) Pout (dBm)
Phase Noise
at 100 kHz offset (dBc/Hz)
Supply
Voltage Package
SFSO-JF01-(freq)-S/E/C 0.2 - 18 +10 to +14 -112 (RF = 12 GHz) 7 S, E or C *4
SFSO-JF02-(freq)-C 15 - 36 TBD -106 (RF = 24 GHz) 7 Connectorized
SFSO-JF03-(freq)-C 30 - 45 TBD TBD 7 Connectorized
JF Series
Phase-Locked Oscillators
Multiple Frequency Single Output (MFSO)
Part
Number
Selectable
Frequency Range
(GHz)
Frequency
sets
Minimum
Step Size
(MHz) Pout (dBm)
Phase Noise
at 100 kHz offset
(6 GHz) (dBc/Hz)
Supply
Voltage
(V) Package
MFSO-JF01-(freq)-S/E/C 0.2 - 18 Up to 32 1 +10 to +14 -112 (RF = 12 GHz) 7 S, E or C *4
MFSO-JF02-(freq)-C 15 - 36 Up to 32 2 TBD -106 (RF = 24 GHz) 7 Connectorized
MFSO-JF03-(freq)-C 30 - 45 Up to 32 4 TBD TBD 7 Connectorized
5GNRAiPPLOSingalGenerator
mmWave
ConnectorS
23. 21
Phase-Locked Oscillators
Customization Guideline
If all of the PLOs listed in the Standard Products does not meet your requirement, try TMYTEK’s customization service.
We can customize them for you as long as you tell us the following parameters. operation@tmytek.com
Parameter Unit
Power Supply Vdc
Output Power dBm
Spurs dBc
2nd Harmonic dBc
Phase Noise
@ 1 kHz dBc/Hz
@ 10 kHz dBc/Hz
@ 100 kHz dBc/Hz
@ 1 MHz dBc/Hz
Quantity pcs
5GNRAiPPLOSingalGeneratormmWave
Connectors
24. 22
Dielectric Resonator Oscillators (DRO)
Dielectric Resonator Oscillator (DRO) utilizes the advantage of the dielectric resonator design for ultra low phase noise,
high Q and excellent frequency stability and control. It is ideal for commercial, military and SATCOM applications whom
requires high stability and low phase noise signal sources in their systems. Some of our DRO features are listed below:
• Ultra low phase noise
• Low harmonics
• Low spurs
Customization Guideline
We can customize DRO for you. Please reference to the below specification. For more details, please contact us and tell
us the exact specification you need and we will design it for you. operation@tmytek.com
Parameter Specifications Unit
Maximum Frequency 18 GHz
Output Power (typ.) 3 dBm
Typical SSB Phase Noise
@100 Hz -63 dBc/Hz
@1 kHz -81 dBc/Hz
@10 kHz -88 dBc/Hz
@100 kHz -102 dBc/Hz
@1 MHz -123 dBc/Hz
Harmonics (max.) -20 dBc
Spurs (max.) -80 dBc
Supply Voltage 6 -24 Vdc
Current Consumption 100 mA
VSWR (max.) 2:1
Operating Temperature -45 to +85 °C
RF Connectors Female SMA
ConnectorS5GNRAiP
mmWave
25. 23
Signal Generators
TMYTEK’s signal generators (TSGs) are portable and reliable signal sources that offer industry standard performances.
The signal generators are available in broad frequencies range up to 45 GHz, and are optimized for commercial wireless,
instrumentations, healthcare devices, aerospace and military applications.
TMYTEK offers both single channel and dual channel options on some of our TSG series. The two channels are isolated
channels that offer its own frequency and power adjustments. Both can be controlled by our in house designed software
control program via USB or Ethernet interface.
Standard Products
Part
Number
Frequency
Range
(GHz)
Frequency
Resolution
(kHz)
Pout Range
(dBm)
Pout Step
(dB)
Phase Noise
at 100 kHz offset (dBc/
Hz)
Supply
Voltage
(V)
No. of
Channels Package
TSG-TVS6-S/D 0.05 - 6 1 -13 to 12 0.5
-120 (RF = 1.2 GHz)
-108 (RF = 4.8 GHz
7 S or D*5 Connectorized
TSG-TV01-S/D 2 - 16 2 -13 to 12 0.5
-92.5 (RF = 6 GHz)
-86.5 (RF = 12 GHz)
7 S or D*5 Connectorized
TSG-TV02-S 16 - 32 4 -11 to +14 0.5
-89.2 (RF = 24 GHz)
-87.0 (RF = 28 GHz)
7 Single Connectorized
TSG-TV03-S 32 - 45 8 -12 to +13 0.5
-77.5 (RF = 32 GHz)
-74.1 (RF = 44 GHz)
7 Single Connectorized
TV Series
Part
Number
Frequency
Range
(GHz)
Frequency
Resolution
(kHz)
Pout Range
(dBm)
Pout Step
(dB)
Phase Noise
at 100 kHz offset (dBc/
Hz)
Supply
Voltage
(V)
No. of
Channels Package
TSG-JF01-S/D 0.2 - 18 1 -13 to 12 0.5 -112 (RF = 12 GHz) 7 S or D*5 Connectorized
TSG-JF02-S 15 - 45 2 TBD 0.5 -106 (RF = 24 GHz) 7 Single Connectorized
JF Series
4
*5 S for single channel, and D for dual channel
5GNRAiPConnectorsPLO
mmWaveSingalGenerator
26. 24
Amplifiers
Low Noise Amplifier
Low Noise Amplifier (LNA) is used in the receiver chain for amplifying received RF signals. It’s function is to ensure the
weak RF signal can be amplified with very minimal noise added. TMYTEK’s low-noise amplifier (LNA) focuses on the
mmWave band for customer’s who are interested in mmWave transceiver and wireless applications. Our LNA’s key
feature is wide band coverage. Our standard LNAs cover the frequency range from 16 GHz to 40 GHz which are suitable
for numerous frequency band requirements. On top of that, they also have excellent noise performance and superior
gain. Some of our LNA’s application includes Point-to-Point radio, SATCOM and wireless communication systems.
Our LNAs are packaged in coaxial connectorized modules which means we have taken care of all the biasing network
including built-in voltage regulation, bias sequencing and reverse bias protection. This simplifies the use of LNA and
makes system integration a step easier.
Driving Amplifier
Driving Amplifier (DA) is used in several places in the transceiver chain such as after signal source or at the transmitter
chain for amplifying signals to be broadcasted. It’s function is to ensure RF signal is large enough to be detected.
TMYTEK’s driving amplifiers (DA) is also made for broadband coverage similar to our LNA products. Its focus is also on
the mmWave band for customers who are interested in mmWave transceiver and wireless applications. Our standard
DAs cover the frequency range from DC to 40 GHz and they feature excellent gain, high output power and exceptional
noise performances. They are most suitable for customers looking for high gain, low noise figure and wide band coverage
amplifiers. This could be applicable to Point-to-Point radio, SATCOM and wireless communication systems. Our DAs
are packaged in coaxial connectorized modules which means we have taken care of all the biasing network including
built-in voltage regulation, bias sequencing and reverse bias protection. This simplifies the use of DA and makes system
integration a step easier.
ConnectorS5GNRAiP
mmWave
27. 25
Amplifiers
Standard Products
Customization Guideline
If all of the LNAs and DAs listed in the Standard Products does not meet your requirement, try TMYTEK’s customization
service. We can customize both Low Noise Amplifiers and Driving Amplifier for you as long as you tell us the following
parameters. operation@tmytek.com
Low Noise Amplifiers
Part
Number RF (GHz) Gain (dB)
Noise Figure
(dB)
Output P1dB
(dBm)
Supply
Voltage (V)
Supply
Current (mA) Package
LNA-NC-2040-20 20 - 40 18 2.0 9 5 50 Connectorized
Driving Amplifiers
Part
Number RF (GHz) Gain (dB)
Noise Figure
(dB)
Output P1dB
(dBm)
Supply
Voltage (V)
Supply
Current (mA) Package
DA-BF-0715-13 7 - 15 13 4.0 13 5 55 Connectorized
DA-NC-0040-14 0 - 40 14 3.5 19 5 190 Connectorized
Parameter Unit
Bandwidth GHz
Gain dB
Noise Figure dB
Output Power @ 1 dB compression (P1dB) dBm
Supply Current mA
Supply Voltage V
OIP3 dBm
Required to be in cryogenic environment? Yes or No
Package Connectorized/Waveguide
Quantity pcs
5GNRAiPConnectorsmmWave
28. 26
Frequency Conversion
Frequency Multiplier
A frequency multiplier is a nonlinear device that is capable of producing an output signal that is at integer multiples
of the input signal frequency. For an integer multiple of two, it is also commonly known as ‘doubler’. The output of a
frequency multiplier is known as the ‘harmonic’ of the fundamental signal in which the ‘fundamental’ frequency is the
input frequency. Hence, when selecting a frequency multiplier, we are often interested in their conversion loss between
the fundamental and the desired harmonic, suppression of undesired harmonics, and power generated at the output.
TMYTEK’s mmWave multipliers cover the RF frequency range from 15 to 45 GHz and are packaged in our own miniature
designed package.
Mixers
A RF/mmWave mixer translates the input signal frequency to an output signal of a different frequency. The translation
can be either from a lower frequency to a higher frequency or vice versa. It is worth noting that the important factors that
we look for in mixers are its’ conversion loss, multi-tone intermodulation products, single tone spurious products, and
isolations. These are all parameters that could affect the dynamic range of a RF/mmWave system. TMYTEK’s standard
mixers cover the frequency range from 10 to 86 GHz and have excellent conversion loss/gain. It is also packaged in our in
house designed connectorized modules which is very compact in size.
Up / Down Converters
TMYTEK’s up or down converters are built to customers’ needs. It offers great flexibility including the choices of internal
local oscillator (LO) as well as internal amplifier (including PA or LNA). It is custom made to provide our customers the
most suitable up / down converters for their applications. Some of these applications include Point-to-Point radio,
broadband communications, and RADAR applications. It is also excellent in performance as we take care of all the
internal circuitry including image rejection, LO or RF buffer, LO multiplications, filtering as well as all the bias networks.
TMYTEK also offers dual band up or down converters for some of our customers looking for both 28 GHz and 39 GHz
converters. Our up / down converters are offered in connectorized box for easy operation.
ConnectorS5GNRAiP
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29. 27
Frequency Conversion
Standard Products
Frequency Multipliers
Part
Number
Input Freq
(GHz)
Output Freq
(GHz)
Output Power
(dBm) Multiply Factor
Conversion
Gain / Loss
(dB) Package
FM-NC-075225-02 7.5 - 22.5 15 - 45 16 2 10 Connectorized
FM-NC-075112-04 7.5 - 11.25 30 - 45 16 4 20 Connectorized
Mixers
Part
Number
RF
(GHz)
LO
(GHz)
IF
(GHz)
LO Drive
(dBm)
Conversion
Gain / Loss(dB) Package
MX-NO-100440-000140 10 - 44 10 - 44 0 - 14 15 -10.5 Connectorized
MX-NO-110400-000120 11 - 40 11 - 40 0 - 12 15 -10 Connectorized
MX-NC-180460-000200 18 - 46 18 - 46 0 - 20 15 -8.5 Connectorized
MX-VO-550650-000050 55 - 65 27.5 - 32.5 0 - 5 10 -14 Connectorized
MX-VO-710860-000120 71 - 86 34.5 - 44 0 - 12 2 -13 Connectorized
Up / Down Converters
Part
Number
RF
(GHz)
LO
(GHz)
IF
(GHz)
Conversion
Gain/ Loss
(dB)
Supply
Voltage (V) No. of Channels Package
BB-UDC-2444-0014-(S/D) 24 - 44 16 - 32 0.01 - 14 -9 15 Single or Dual Connectorized
MX-V-5565-5565-0005 55 - 65 55 - 65 0 - 5 -15 12 Single Connectorized
MX-E-7186-6988-0012 71 - 86 69 - 88 0 - 12 -15 12 Single Connectorized
5GNRAiPConnectorsmmWave
30. 28
Frequency Conversion
Customization Guideline
If the UP/DOWN Converters listed in the Standard Products does not meet your requirement, try TMYTEK’s customization
service. We can customize them for you as long as you tell us the following parameters. operation@tmytek.com
Parameter Unit
RF Frequency GHz
LO Frequency GHz
IF Frequency GHz
LO-IF Isolation GHz
LO-RF Isolation GHz
Conversion Loss/Gain dB
Spurs dBc
Harmonics dBc
Bias Voltage Vdc
Internal PLO required? Yes/No
Quantity pcs
ConnectorS5GNRAiP
mmWave
32. 30
Digital Controlled Attenuators (DCA)
TMYTEK’s standard digital controlled attenuator operates in the frequency range up to 30 GHz. It is a 6 bit digital
attenuator capable of attenuating up to 31.5 dB with a minimum of 0.5 dB per step. Digital controlled attenuators can
be used in variety of applications including automotive, wireless (including 5G communication) and radar. Our DCA
is typically controlled by TTL but we also offer USB control as an option. The packaging of DCAs are in house designed
connectorized modules.
Digital Controlled Filters (DCF)
We are typically used to designing filters at our band of interest. But when there are more and more demands for
applications such as multi-band transceivers or multi-standard communication systems, it became crucial for us to
develop filters that can be used in multiple scenarios. This is why digital controlled filters became essential. TMYTEK
offers a wide selection of digital controlled filters including low pass filters, high pass filters and band pass filters. Our
DCF operates up to 18 GHz with excellent performances such as low insertion loss. Our DCF range from 4 to 9 bit control
and is typically controlled by TTL but we also offer USB control as an option. The packaging of DCFs are in house designed
connectorized modules.
Digital Controlled Phase Shifters (DPS)
TMYTEK’s digital controlled phase shifters are developed for use with the 5G beamforming system particularly in the 28
GHz band. The operating frequency ranges from 26.5 to 30.5 GHz with excellent phase and amplitude accuracy across
the nominal frequency band. The phase shifter is a 6 bit control covering 360˚ with 5.625˚ per step. The attenuation
control is 5 bit; each step is 0.7 dB with a maximum of 21.7 dB attenuation. Our DPS is a passive device and it follows
the T/R structure and exhibits only two RF ports and the control port. Our DPS is typically controlled by USB. The
packaging of DPSs are in house designed connectorized modules.
Digital Controlled Switches and Matrices (DSW)
TMYTEK’s digital controlled switch series covers a broad range of switches including standard frequency switches, such
as SPDT, SP4T and SP8T and switch matrices, such as 2x2 matrix, 4x4 matrix and 8x8 matrix. They all have one advantage
in common and that is wideband coverage. The standard frequency switches cover the frequency range from 50 MHz all
the way up to 50 GHz while the switch matrices covers up to 18 GHz. Some of the important parameters worth noting
is that they have low insertion loss and excellent isolation. We also offer special edition switch matrix which includes
all of the switching features of the 2x2 matrix and on top of that the input ports and the output ports are all internally
switchable. Our DSWs are typically controlled by USB. The packaging of DSWs are in house designed connectorized
modules.
ConnectorS5GNRAiP
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33. 31
Standard Products
Customization Requirement
If you can’t find what you are looking for in the Standard Products, try TMYTEK’s customization services. Please send your
requirements to operation@tmytek.com 4
*6 Special edition. Please ask for more details.
Digital Controlled Attenuators
Part
Number RF (GHz) Bit Count
Attenuator
Range (dB)
Attenuator
Step (dB)
Insertion
Loss (dB) IIP3 (dBm) Package
DCA-NC-000300-06-05315 0 - 30 6 0 - 31.5 0.5 6 38 Connectorized
DCA-NC-000400-06-05160 0 - 40 6 0 - 16 0.5 9 38 Connectorized
Digital Controlled Switches and Matrices
Part
Number Switch Type RF (GHz)
Insertion Loss
(dB) Isolation (dB) IIP3 (dBm) Package
DSW-NC-SPDT-0050 SPDT 0.05 - 50 2.5 47 — Connectorized
DSW-NC-SP4T-0050 SP4T 0.05 - 50 2.5 41 40 Connectorized
DSW-NC-SP8T-0050 SP8T 0.05 - 50 3.5 32 40 Connectorized
DSW-QU-M-0018-2x2 2x2 Matrix 0 - 18 2.5 55 59 Connectorized
DSW-QU-M-0018-2x2-S *6 2x2 Matrix 0 - 18 2.5 55 59 Connectorized
DSW-QU-M-0018-4x4 4x4 Matrix 0 - 18 2.5 55 59 Connectorized
Digital Controlled Filters
Part
Number Filter Type Bit Count
Tunable
Frequency
Range (GHz)
Insertion Loss
(dB)
Rejection
(dB)
IIP3
(dBm) Package
DCF-BPF-B1-00220042-5-C Band Pass 5 0.22 - 0.425 7 46 / 50 40 Connectorized
DCF-BPF-B1-00430089-5-C Band Pass 5 0.43 - 0.89 5.5 30 / 54 42 Connectorized
DCF-BPF-B1-00630140-5-C Band Pass 5 0.63 - 1.4 6 32 / 53 37.5 Connectorized
DCF-BPF-B3-06001800-9-C Band Pass 9 6 - 18 3 50 40 Connectorized
DCF-HPF-B3-06001000-4-C High Pass 4 6 - 10 2.5 50 40 Connectorized
DCF-LPF-B3-09001800-5-C Low Pass 5 9 - 18 3 50 40 Connectorized
Digital Controlled Phase Shifter
Part
Number RF (GHz)
Phase Shifter
Range (˚)
Phase Shifter
Step (˚)
Attenuator
Range (dB)
Attenuator Step
(dB) Package
DPS-PO-02650305-C 26.5 - 30.5 0 - 360 5.625 0 - 21.7 0.7 Connectorized
5GNRAiPConnectorsmmWave
34. 32
Baluns
TMYTEK’s mmWave balance to unbalance transformer (BULUN) is made to convert a differential signal to a single ended
signal and vice versa, which is functionally equivalent to a 180˚ hybrid. It operates in the frequency range of 11 to 16 GHz
providing superior amplitude balance, phase balance, insertion loss and isolation. Our BALUNs are packaged in our in
house designed connectorized modules.
Bias Tees
TMYTEK’s bias tee offers the ability to apply or detect a DC voltage on a RF signal for frequency coverages up to 50 GHz.
It is made to cover the high frequency bands for mmWave applications. Some of our bias tees advantages include low
insertion loss, excellent return loss between the RF and the common ports as well as superior power handling for both
the DC and the RF port. Our bias tees are packaged in our in house designed connectorized modules.
DC Blocks
A DC block offers the ability to prevent (or block) the flow of direct current (DC) frequencies to RF signals. TMYTEK’s DC
blocks are made with great precision for frequency coverages up to 50 GHz at the same time providing low insertion loss,
high blockage and superior DC power handling. Our DC blocks are available in different RF connector sizes for direct
coaxial connections, including SMA connector, 2.92 mm (or K) connector and 2.4 mm (or V) connector. They are made to
cover the different frequency bands for various mmWave applications.
Filters
Filters are a fundamental component in signal processing and it appears in numerous stages of the RF and mmWave
systems. Their main functionality are to pass signals within their passband and reject signals outside the passband in
term to provide ‘filtering’ to the wanted signal. Most of our filters are custom made for our customers to fit the specific
needs for their applications in different bands of the spectrum. TMYTEK’s filters offers superior rejection, low insertion
loss, and excellent return loss. They are also compact in sizes for we designed the packaging ourselves in connectorized
modules. Our standard filters cover the frequency range up to 53 GHz, but please refer to our customization guideline for
more choices that we can offer.
Power Combiners/Dividers
Power combiners or dividers are used for combining two signal power into one output or splitting one signal power into
two equal and identical output. We often call this 2-way power combiner/dividers. There are also 3-way, 4-way and
multiple-way type of power combiners/dividers. At TMYTEK, we offer low loss 2-way and 4-way power combiners/dividers
for Ka band operation.
ConnectorS5GNRAiP
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35. 33
Standard Products
Balun
Part
Number RF (GHz)
Nominal Phase
Shift (°) Impedance Ratio Insertion Loss (dB) Package
BL-RRC-1116 11 - 16 180 1:1 2.5 Connectorized
Filters
Part
Number Filter Type RF (GHz)
Insertion Loss
(dB) Rejection (dB) Return Loss (dB) Package
FT-LPF-000060-C Low Pass 0 - 15 1.7 40 25 Connectorized
FT-LPF-000150-C Low Pass 0 - 15 2.2 40 20 Connectorized
FT-BPF-040080-C Band Pass 4 - 8 1.6 20 15 Connectorized
FT-BPF-242275-C Band Pass 24.25 - 27.5 2.8 30 15 Connectorized
FT-BPF-265295-C Band Pass 26.5 - 29.5 4.8 40 12 Connectorized
FT-BPF-270290-C Band Pass 27 - 29 3 40 10 Connectorized
FT-BPF-275285-C Band Pass 27.5 - 28.5 5.5 40 10 Connectorized
FT-BPF-350470-C Band Pass 35 - 47 2 40 10 Connectorized
FT-BPF-370400-C Band Pass 37 - 40 4 40 10 Connectorized
FT-BPF-397453-C Band Pass 39.7 - 45.3 3 40 10 Connectorized
FT-BPF-400530-C Band Pass 40 - 53 2 40 10 Connectorized
Bias Tees
Part
Number RF (GHz) Insertion Loss (dB)
Max DC
Current (mA) Max DC Voltage (V) Package
BT-NO-0024-30 0 - 24 2.5 500 30 Connectorized
BT-NO-0034-30 0 - 34 2.5 500 30 Connectorized
BT-TM-0040-50 0 - 40 3 270 50 Connectorized
BT-TM-0050-50 0 - 50 3 270 50 Connectorized
DC Blocks
Part
Number RF (GHz) Impedance
Insertion Loss
(dB) Max DC Voltage (V) Package
DCB-TM-0026-50 0 - 26 50 2.5 50 SMA Connector
DCB-TM-0040-50 0 - 40 50 3 50 2.92 mm Connector
DCB-TM-0050-50 0 - 50 50 3 50 2.4 mm Connector
Power Combiners / Dividers
Part
Number Filter Type RF (GHz)
Nominal Power
Splitting (dB)
Excess Insertion
Loss (dB)
Amplitude
Balance (dB) Package
PD-LP-250320-2 2-way 25 - 32 3 1.8 ±0.5 Connectorized
PD-LP-240320-4 4-way 24 - 32 6 2.5 ±1.0 Connectorized
5GNRAiP
mmWave
Connectors
36. 34
Customization Guideline
We can customize filters for you. Please provide the parameters specified on the corresponding graphs depending on the
filter designs you require.
XX±YYdB
XX±YYdB
XX±YYdB
Fp Fs
BW
Loss(dB)
Freq(GHz)
XX±YYdB
XX±YYdB
XX±YYdB
Fp1 Fp2
Loss(dB)
Fs
Freq(GHz)
XX±YYdB
XX±YYdB
XX±YYdB
Loss(dB)
Freq(GHz)
Fp1 Fp2Fs1 Fs2
XX±YYdB
XX±YYdB
XX±YYdB
Loss(dB)
Fp1 Fp2Fs1 Fs2Fs0
Freq(GHz)
Low Pass Filter
Band Pass Filter
High Pass Filter
Band Stop Filter
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38. 36
High Frequency Connectors
Multi-Coaxial Connectors
TMYTEK offers two connector product lines each with its own specialized advantages. The first product line is the
multi-coaxial (MC) connectors. This product line provides customers to combine coaxial connections into a compact
connector form. In addition, we let our customer choose how many coaxial ports they need; in another words, they
are customizable. Our multi-coaxial connectors provide the choices between 2 to 16 connectors in 1 or 2 row formats.
This outstanding feature makes the connectors compact which saves time, space and money for our customers when
designing and using coaxial connections. On top of our customizable feature, the connector’s RF performances are also
worth noting. It has excellent insertion loss and return loss performances and can operate up to 50 GHz.
Nicomatic Micro Connectors
TMYTEK is a distributor of Nicomatic’s micro connectors. Both CMM and DMM series. These connectors have aerospace/
military standards and are ISO9001 and AS/EN/JISQ 9100 certified. They have high working voltages and can withstand
currents up to 3 A. Furthermore, the CMM series is high temperature resistant (up to 260˚C). We provide design-in
services for customers who wish to design their system with Nicomatic micro connectors.
5GNRAiPmmWaveConnectors
Multi-Coaxial Connectors
Nicomatic Microl Connectors
39. 37
High Frequency Connectors
Multi-Coaxial Connectors Specification — Customizable RF mmWave Coaxial Connectors
Multi-Coaxial (MC) Connectors
Specifications Series MC SMT Connector MC DIP Connector
Materials
Shell Brass Brass
Insulator PTFE PEEK
Contact Beryllium Copper Beryllium Copper
Fixing Stainless Steel Stainless Steel
Finish
Shell 30 u” gold 30 u” gold
Insulator White Natural
Contact 5 u” gold 5 u” gold
Dimensions
Pitch 4 mm 4 mm
Number of contacts 2 - 16 2 - 16
Number of rows 1 - 2 1 - 2
Electrical
Operating frequency Up to 50 GHz Up to 40 GHz
Impedance 50 Ω 50 Ω
Return loss 15 dB max. 18 dB max.
Insertion loss 0.2 dB max. 0.2 dB max.
Cross-Talk 35 dB max. 35 dB max.
Dielectric withstanding voltage 325 Vrms min. 325 Vrms min.
Contact resistance 6 mΩ max. 6 mΩ max.
Insulation resistance 5000 MΩ min. 5000 MΩ min.
Operating Temperature range -65°C to +165°C -65°C to +165°C
5GNRAiP
Connectors
mmWave
40. 38
Number of Rows:
1 = 1 row
2 = 2 rows
Contact Gender:
1 = Male
2 = Female
Contact Type:
SR = SMT 90° PCB
SS = SMT Straight PCB
DR = DIP 90° PCB
DS = DIP Straight PCB
CA = Cable
Number of Contacts:
01 to 08 for 1 row
04 to 16 for 2 rows
Fixing Gender:
M = Male
F = Female
Mounting Type:
ST for Standard
EN for Enhanced
Cable Length (if any):
LLLL mm
Example:
1280 mm
L L L L S T
Cable Type (if any):
ST = Standard up to 40GHz
Second connector part number (if any)
M C
High Frequency Connectors
Selection Guideline
Based on the below selection guideline drawing, please fill in the blank parts with the suggested choices such as number
of rows, contact gender and type, number of contacts, fixing gender and type. The boxes for ‘LLLL’ is for custom designed
four-digit cable length (unit in millimetres). Cable type is typically standard but customers can specify their needs if they
have special requirements. The second connector part number is the connector on the other side of the cable. The 9-digit
part number follows the same rule as the 9-digit selection for the first MC connector (the 9 digits following’MC’).
Harness Selection:
Connector Selection:
Number of Rows:
1 = 1 row
2 = 2 rows
Contact Type:
SR = SMT 90° PCB
SS = SMT Straight PCB
DR = DIP 90° PCB
DS = DIP Straight PCB
Number of Contacts:
01 to 08 for 1 row
04 to 16 for 2 rows
M C 1
5GNRAiPmmWaveConnectors
41. 39
Number of Contacts:
CMM
02 to 25 (nn) for 10 series
04 to 50 (nn) for 20 series
04 to 60 (nn) for 22 series
006 to 120 (nnn) for 32 series
Termination Style:
Y = Straight PCB
V = 90° PCB
T = Straight SMT
R = 90° SMT
SP = Crimp for #24-28AWG
CP = Crimp for #22AWG
n nn
Gender:
1 = Male
2 = Female
Rows:
CMM
10 = 1 row
20 = 2 rows
22 = 2 rows more contacts
32 = 3 rows
Series:
C = CMM
D = DMM
Hardware Fixing:
Please contact us for more
details on different fixing
choices.
DMM
04 (nn) for 10 series
10 to 38 (nn) for 22 series
51 to 90 (nn) for 32 series
120 (nn) for 42 series
DMM
10 = 1 row
22 = 2 rows
32 = 3 rows
42 = 4 rows
High Frequency Connectors
Nicomatic Connectors Specification — Customizable Micro Connectors
Nicomatic Micro Connectors
Specifications Series NT CMM NT DMM
Materials
Shell — Aluminum 6061 type alloy
Insulator Special PPS UL 94-V0 Special PPS UL 94-V0
Contact
Body: copper alloy / Ni + Au
Socket: beryllium copper / Ni + Au
Beryllium Copper
Fixing Stainless steel Stainless steel
Dimensions
Pitch 2 mm 2 mm
Number of contacts 2 - 120 4 - 120
Number of rows 1 - 3 1 - 4
Electrical
Rated current
3 A max. @ 25°C
2.2 A max. @ 85°C
3 A max. @ 25°C
2.2 A max. @ 85°C
Working voltage (sea level) 800 VDC 200 VDC
Contact resistance 10 mΩ max. 8.7 mΩ max.
Insulation resistance 1000 MΩ min. 5 GΩ min.
Operating temperature range -60°C to +260°C -55°C to +125°C
Selection Guideline
5GNRAiP
Connectors
mmWave