THIS PRODUCT IS END OF LIFE AND HAS BEEN REPLACED BY sysmoISIM-SJA5for a detailed changelog how SJA5 differs from SJA2, see the chapter "Changelog" in the sysmoISIM-SJA5 user manualThis is a bundle of 10 cards.The sysmoISIM-SJA2 is a
standards-compliant GSM SIM + UMTS USIM + IMS/VoLTE ISIM card. It has a
triple-cut form factor, fitting 2FF (classic SIM), 3FF (micro SIM) and
4FF (nano SIM).It is intended to be used in sysmoNITB / Osmocom
based cellular networks, but can be used with any core network, from GSM
(2G) through UMTS (3G) and LTE (4G) as well as 5G. It contains all files of 3GPP Release 16.All cards ship
with factory-default unique IMSI and a card-individual random K + OPC.
The 2G SIM, USIM and ISIM authentication algorithm is set to MILENAGE.One
specific advantage of this card is its fully re-programmable nature,
where the user can create/edit any files and directories (EF or DF) in
the card filesystem.sysmoISIM-SJA2 supports:GSM Authentication: COMP128v1, COMP128v2 and COMP128v3, MILENAGE (default)UMTS Authentication: MILENAGE (default)Fixed ICCID (not programmable/writable!)Programmable IMSIProgrammable MSISDNProgrammable Ki / K / OP or OPC (OPC default)GSM TS 11.11 compatibility64kByte flash sizeJava enabled (Card Manager, OTA, STK/SAT)Card-individual ADM keyCard-individual OTA keys (3DES)For more information on the sysmoISIM-SJA2, please see the sysmoISIM-SJA2 User ManualThe key material will be sent (at the time of shipping) by e-mail to the address submitted during the order/checkout process.NOTICE:
This product is for operators of public or private mobile networks and
the research community. As a regular subscriber of mobile networks, you
cannot clone another identity to this card, as you do not know the
secret identity (Ki) of your original card!THIS PRODUCT IS END OF LIFE AND HAS BEEN REPLACED BY sysmoISIM-SJA5
This is a bundle of 10 cards.The sysmoISIM-SJA5 is a
standards-compliant GSM SIM + UMTS USIM + IMS/VoLTE ISIM card. It has a
triple-cut form factor, fitting 2FF (classic SIM), 3FF (micro SIM) and
4FF (nano SIM).It is intended to be used in sysmoNITB / Osmocom
based cellular networks, but can be used with any core network, from GSM
(2G) through UMTS (3G) and LTE (4G) as well as 5G. It contains all files of 3GPP Release 17.All cards ship
with factory-default unique IMSI and a card-individual random K + OPC.
The 2G SIM, USIM and ISIM authentication algorithm is set to MILENAGE.One
specific advantage of this card is its fully re-programmable nature,
where the user can create/edit any files and directories (EF or DF) in
the card filesystem.sysmoISIM-SJA5 supports (bold is new compared to SJA2):GSM Authentication: XOR-2G, COMP128v1, COMP128v2 and COMP128v3, MILENAGE (default)UMTS Authentication: XOR-3G, MILENAGE (default), TUAKFixed ICCID (not programmable/writable!)Programmable IMSIProgrammable MSISDNProgrammable Ki / K / OP or OPc (OPc default)GSM TS 11.11 compatibility200 kBytes remaining/free flashJava enabled (Card Manager, OTA, STK/SAT)Card-individual ADM keyCard-individual OTA keys (3DES default, AES optional)For more information on the sysmoISIM-SJA5, please see the sysmoISIM-SJA5 User ManualThe key material will be sent (at the time of shipping) by e-mail to the address submitted during the order/checkout process.NOTICE:
This product is for operators of public or private mobile networks and
the research community. As a regular subscriber of mobile networks, you
cannot clone another identity to this card, as you do not know the
secret identity (Ki) of your original card!Custom printing available in quantities > 1000 units.The cards all ship with an IMSI in
the MCC-MNC of 999-70 (MCC 999 is reserved by ITU for private
cellular networks). You can of course modify the IMSI like all other parts of this card to whatever is your requirement.
This is a professional adapter to insert ID-001 (plug-in, 2FF) SIM cards
or micro SIM (3FF) or nano SIM (4FF) cards into a full-sized card
reader slot.
The sysmoEUICC1-C2x is an eUICC for use within the consumer eSIM systemThe eUICC (embedded Universal Integrated Chip Card) is the hardware component typically soldered onto the circuit board of a
UE (User Equipment, the term 3GPP uses for a phone/modem). It is the physical component onto which the purely logical/virtual
eSIM [profiles] are installed.The sysmoEUICC-C2x is packaged in the traditional plastic card form factor of SIM/UICC cards. It is a so-called seamless cut,
allowing for a single card to be used in full (credit card) size, as well as 2FF (mini-SIM), 3FF (micro-SIM) or 4FF (nano-SIM). This form-factor is useful primarily in that: it can be used to eSIM-enable devices that have a traditional SIM card slot, and no built-in/on-board eUICCit can be used during research, development and testing; for example by inserting it into a smart-card reader that is attached to
a computerFor more details, please see the product user manual.Overview of Variants
VariantSystemForm-FactorCertificates
sysmoEUICC1-C2GConsumer2FF/3FF/4FFGSMA
sysmoEUICC1-C2TConsumer2FF/3FF/4FFSGP.26 Test
The Osmocom SIMtrace2 hardware enables you to capture and monitor communication between a mobile phone and its SIM or USIM card.The SIMtrace2 Hardware Kit consists of the following parts:the SIMtrace Device itselfa USB A to mini-B cablea set of four flexible PCB SIM adapters for 2FF SIM card size, one in each orientationThe
flexible PCB adapter cables for 3FF (micro) and 4FF (nano) SIM card
slots are NOT included in the kit. If you require it, please order them
as separate items.Full schematics, gerber files, firmware source code and host PC software source code can be found at https://osmocom.org/projects/simtrace2 .Please
note that sysmocom is merely offering the fully
assembled/tested/manufactured SIMtrace hardware to you. The software is
a community-driven OpenSource project, and at the low cost of this
item, we cannot provide you with free software support or any type of
warranty on software functionality.Please note that we strongly advise against the use of virtual machines with USB pass-through for the SIMTrace2. This often messes up the rather strict timing requirements and introduces instability. Please understand that we cannot accept bug reports for bugs observed in setups involving VMs.
The Omnikey CardMan 3121 is a USB smart card interface device.
Colloquially these devices are also called "Card Reader", despite the
fact that they can read and write as far as permitted by the card used.It
is compatible with the USB CCID class device specification and can be
used without any vendor drivers by Free / Open Source software such as libccid and OpenCT. Having said that, it of course also works with vendor-supplied PC/SC drivers on Windows, as well as Mac OS X.The Omnikey CardMan 3121 offers a single full-sized card slot. So please make sure to obtain a mechanical adapter separately if you want to use it with plug-in sized SIM cards.
This is a bundle of 10 cards.The sysmoISIM-SJA5 is a
standards-compliant GSM SIM + UMTS USIM + IMS/VoLTE ISIM card. It has a
triple-cut form factor, fitting 2FF (classic SIM), 3FF (micro SIM) and
4FF (nano SIM).It is intended to be used in sysmoNITB / Osmocom
based cellular networks, but can be used with any core network, from GSM
(2G) through UMTS (3G) and LTE (4G) as well as 5G. It contains all files of 3GPP Release 17.All cards ship
with factory-default unique IMSI and a card-individual random K + OPC.
The 2G SIM, USIM and ISIM authentication algorithm is set to MILENAGE.One
specific advantage of this card is its fully re-programmable nature,
where the user can create/edit any files and directories (EF or DF) in
the card filesystem.sysmoISIM-SJA5 supports (bold is new compared to SJA2):GSM Authentication: XOR-2G, COMP128v1, COMP128v2 and COMP128v3, MILENAGE (default)UMTS Authentication: XOR-3G, MILENAGE (default), TUAKFixed ICCID (not programmable/writable!)Programmable IMSIProgrammable MSISDNProgrammable Ki / K / OP or OPc (OPc default)GSM TS 11.11 compatibility200 kBytes remaining/free flashJava enabled (Card Manager, OTA, STK/SAT)Card-individual ADM keyCard-individual OTA keys (3DES default, AES optional)For more information on the sysmoISIM-SJA5, please see the sysmoISIM-SJA5 User ManualThe key material will be sent (at the time of shipping) by e-mail to the address submitted during the order/checkout process.NOTICE:
This product is for operators of public or private mobile networks and
the research community. As a regular subscriber of mobile networks, you
cannot clone another identity to this card, as you do not know the
secret identity (Ki) of your original card!Custom printing available in quantities > 1000 units.The cards all ship with an IMSI in
the MCC-MNC of 999-70 (MCC 999 is reserved by ITU for private
cellular networks). You can of course modify the IMSI like all other parts of this card to whatever is your requirement.
This is a single nanoSIM (4FF) FPC Adapter to be used with the SIMtrace hardware.NOTE:
Care must be taken when the FPC adapter is used with a tray, e.g. with
an iPhone. When placing the FPC adapter into a tray, it is possible that
the cable gets stuck on removal. We do not take responsibility for such
events.
This is a single nanoSIM (4FF) FPC Adapter to be used with the SIMtrace hardware.NOTE:
Care must be taken when the FPC adapter is used with a tray, e.g. with
an iPhone. When placing the FPC adapter into a tray, it is possible that
the cable gets stuck on removal. We do not take responsibility for such
events.
The Omnikey CardMan 6121 is a USB smart card interface device directly for the plug-in type (2FF sized) SIM card.
Colloquially these devices are also called "Card Reader", despite the
fact that they can read and write as far as permitted by the card used.It
is compatible with the USB CCID class device specification and can be
used without any vendor drivers by Free / Open Source software such as libccid and OpenCT. Having said that, it of course also works with vendor-supplied PC/SC drivers on Windows, as well as Mac OS X.The Omnikey CardMan 6121 offers a single 2FF card slot. If you need a reader for a full-sized chip card, please check the Omnikey CardMan 3121 as alternative.
This is a single nanoSIM (4FF) FPC Adapter to be used with the SIMtrace hardware.NOTE:
Care must be taken when the FPC adapter is used with a tray, e.g. with
an iPhone. When placing the FPC adapter into a tray, it is possible that
the cable gets stuck on removal. We do not take responsibility for such
events.
This is a single microSIM (3FF) FPC Adapter to be
used with the SIMtrace hardware. The orientation of the SIMcard can be
seen on the product image. In case you require another orientation,
please contact us and tell us which orientaton you require and for which
phone that is needed. NOTE: Care must be taken
when the FPC adapter is used with a tray, e.g. with an iPhone. When
placing the FPC adapter into a tray, it is possible that the cable gets
stuck on removal. We do not take responsibility for such events.This FPC adapter has the FPC attached opposite to the cut corner side of the 3FF SIM shape.
Data SheetThis is a cavity filter for 1090 MHz Mode-S / ADS-B.You
can use it to attenuate any out-of-band interference while receiving
ADS-B / Mode-S. It will attenuate any transmissions from the nearby 900
MHz GSM band by 80 dB.Both connectors are SMA (female). It is not suitable for outdoor environments.It can support up to 30W of RF power and has the following characteristics: 1090 MHz ADS-B Cavity FilterPass Band1086 - 1094 MHzInsertion Loss<= 1.0 dBPassband Ripple0.2 dBRejection80 dB @ 921-960 MHz (GSM 900)VSWR<= 1.20Impedance50 OhmsPower30 W average RF power (max)Temperature-10 to 50 CentigradeDimensions54x54x45 mmWeight200 gIP-RatingIP50
Data SheetThis is a cavity filter for the 868 MHz ISM band, used by LoRA, SigFox and many other narrow-band IoT technologies.You can use it to attenuate any out-of-band interference. It will attenuate transmissions from nearby cellular band.Both connectors are SMA (female). It is not suitable for outdoor environments.It can support up to 30W of RF power and has the following characteristics: 868 MHz ISM Cavity FilterPass Band863 - 870 MHzInsertion Loss<= 1.0 dBPassband Ripple0.2 dBRejection>= 40 dB @ 833 MHz; >= 44 dB @ 903 MHzVSWR<= 1.20Impedance50 OhmsPower30 W average RF power (max)Temperature-10 to 50 CentigradeDimensions54x54x45 mmWeight220 gIP-RatingIP50
The Osmocom SFP breakout board is exactly what the name implies: A small break-out board for transceivers in SFP form factor.You can use it for e.g.transmitting
your own signals / waveforms (not restricted to Ethernet or CPRI) over
fiber optics. This is e.g. useful if you need galvanic isolation between
digital circuits, or need long-distance transmission e.g. between FPGA
LVDS interfaces.attach some I2C adapter to the I2C pins of the SFP module in order to re-program itThe
SFP transceivers exhibit a symmetric/differencial interface for Rx and
Tx. Each of them is exposed as a pair of SMA connectors, using
differential traces between the SMA connectors and the transceiver
module.If you're interested in transmitting single-ended signals, please see the sfp-experimenter board instead. It's like the SFP breakout board, but contains differential transmitter + receivers.Homepage (includes links to schematics, design files, ...): http://osmocom.org/projects/misc-hardware/wiki/Sfp-breakout This kit includes:Assembled sfp-breakout board (PCB Assembly) like visible on the product pictures4x edge-launch SMA connectors which you still need to solder (very basic soldering skills required)No
actual SFP transceiver module is included. You should be able to use
any module compatible with the SFP Multi-Source Agreement.
This is a single nanoSIM (4FF) FPC Adapter to be used with the SIMtrace hardware.NOTE:
Care must be taken when the FPC adapter is used with a tray, e.g. with
an iPhone. When placing the FPC adapter into a tray, it is possible that
the cable gets stuck on removal. We do not take responsibility for such
events.
This is a single microSIM (3FF) FPC Adapter to be
used with the SIMtrace hardware. The orientation of the SIMcard can be
seen on the product image. In case you require another orientation,
please contact us and tell us which orientaton you require and for which
phone that is needed. NOTE: Care must be taken
when the FPC adapter is used with a tray, e.g. with an iPhone. When
placing the FPC adapter into a tray, it is possible that the cable gets
stuck on removal. We do not take responsibility for such events.
The Osmocom SFP experimenter board a small circuit board for
experiments with (usually fiber optical) transceivers in SFP form
factor.You can use it for e.g.transmitting your own
signals / waveforms (not restricted to Ethernet or CPRI) over fiber
optics. This is e.g. useful if you need galvanic isolation between
digital circuits, or need long-distance transmissionattach some I2C adapter to the I2C pins of the SFP module in order to re-program itThe
SFP transceivers exhibit a symmetric/differencial interface for Rx and
Tx. The sfp-experimenter board contains an on-board differential
transmitter and receiver so you can transmit/receive normal single-ended
signals.Project Homepage (includes links to schematics, design files, etc.): http://osmocom.org/projects/misc-hardware/wiki/Sfp-experimenterThis kit includesAssembled sfp-experimenter board (PCB Assembly) like visible on the product pictures2x edge-launch SMA connectors which you still need to solder (very basic soldering skills required)No
actual SFP transceiver module is included. You should be able to use
any module compatible with the SFP Multi-Source Agreement.NOTE: If you're interested in transmitting differential signals, please see the sfp-breakout board instead. It's like the SFP experimenter board, but contains no differential transmitter + receivers.
Tobias "TobleMiner" Schramm designed an open source hardware adapter
to make use of HPE FlexibleLOM adapters in normal, standard PCIe x8
slots.This is a parts kit consisting of the HPE-FlexibleLOM-adapter PCB and the matching PCIe x8 edge launch connector.The parts kit still needs to be assembled (soldered).This Kit uses the Rev A Design.More details, including the full (open source hardware) design files of this project can be found at https://github.com/TobleMiner/HPE-FlexibleLOM-adaptersysmocom
is not involved in the design of this project. We merely make available
the manufactured PCB and the matching connector to the interested
hardware hacker/maker.NOTE: The PCB edge is not chamfered, as JLC PCB doesn't seem to do this for PCBs of that size, see https://github.com/TobleMiner/HPE-FlexibleLOM-adapter/issues/1
The ATUSB is an open hardware IEEE 802.15.4 USB Adapter.It is
based on the Atmel AT86RF231 transceiver and operates in the
license-free 2.4 GHz band using the IEEE 802.15.4 physical and link
layer. Note that IEEE 802.15.4 is different from IEEE 802.11 (WLAN) and
IEEE 802.15.1 (Bluetooth).atusb can communicate at the physical
and link layer with any device that implements the IEEE 802.15.4-2006
standard for the 2.4 GHz band. They are fully supported by the Linux
kernel WPAN project (see linux-wpan).For more information on atusb please see the atusb open hardware project homepageA PDF Rendering of the Schematics is available from here
In the M2M/IoT industry, the ETSI MFF2 (Machine Form Factor) SIM, is
gaining momentum. As opposed to regular SIMs, this type of sim is not
user-removable, but soldered into the GSM-enabled product.This MFF2 SIM is sometimes also called VQFN8 SIM or SON-8 SIM.When
debugging or analyzing problems with such MFF2 SIM, they cannot be
directly used with regular phones, test mobiles or SIM protocol tracers
like our SIMtrace product.However, using this adapter and our FPC
SIM adapters, it is possible to use a ETSI MFF2 solder-type SIM with a
card reader or mobile phone that has a plug-in sized (ID-000) SIM card
slot.Please note that this adapter is only the PCB adapter with a MFF2 footprint ZIF socket and the FPC connector. No FPC SIM cable is included, and no MFF2 SIM is included!You will have to obtain the FPC SIM cables separately. If you already have a SIMtrace including the adapters, you can use them with this product.Any ETSI MFF2 compliant solder-type SIM can be soldered onto this adapter and used in regular mobile phones.
This is a 20cm rigid-flex coaxial cable, RG402 type, terminated with male SMA connectors at both ends.Rigid-flex cables have outstanding screening efficiency compared to normal coaxial cabling, making them ideal in all applications requiring maximum isolation from the external RF environment, such as in test setups for mobile communications.
This is a USB-Serial cable with a CP2102 based USB-Serial converter. The cable exposes the UART at 3.3V CMOS levels on a 2.5mm stereo jack.This cable is also known as Motorola T191 cable, or as Osmocom-style UART cable.This cable can be used for establishing a connection between your PC and the UART in many devices, such asOsmocomBB-compatible phone (OpenMoko, Motorola C1xx, ...)SIMtrace debug UARTicE1usb debug UART (must be re-configured to 1000000 bps before!)sysmoBTS 1002 serial consolemany other projects in the Osmocom universeThis cable supports non-standard baud-rates, it thus can be used for burst_ind branch. However, the CP2102 chip baud rate table needs to be reprogrammed before using such non-standard baud rates. See for exampleThis SiLabs knowledge base articleThe OsmocomBB wiki page regarding Calypso specific non-standard baud ratesVarious other pages online like here
This is an adapter that enables the use of the SIMtrace with a full-size smart card reader.This
way you can use SIMtrace to trace communication of arbitrary smart
cards, not just SIM cards as used in cellular technologies with their
2FF/3FF/4FF form factor.The product includesCircuit board assembly fitting into a full-sized smart card slot, with FPC connector soldered10cm (4") FFC cable to interconnect the circuit board to the SIMtrace
€21.42*
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