CipherTech Transceiver Module TXR95
(*) The product can be ordered online from the Ciphertech Website https://ciphertech.com.sg
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CipherTech DSP Module DSP5509
(*) The product can be ordered online from the Ciphertech Website https://ciphertech.com.sg
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CipherTech Wi-Fi/Bluetooth Module
- Dual Band Wi-Fi 11a/b/g/n/ac 2×2 MIMO
- Bluetooth BLE 5.1
- PCIe interface, in M.2 form factor (22 x 30 mm)
- Data rate: 11, 54, 65, 135, 180, 390, 867 Mbps
- Chipset: Infineon/Cypress CYW54591
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CipherTech Module GSM/3G
UMTS/HSDPA dual-band 900/2100MHz
GSM quad-band GSM/GPRS/EDGE 850/900/1800/1900MHz
Operating Power:
- UMTS 850/1900: 0.25W
- UMTS 900/2100: 0.25W
- GSM850 / GSM900: 2W
- DCS1800 / PCS1900: 1W
Support digital voice and SMS
Support AT-command standard set complied with 3GPP standard TS27.005, 27.007
Support protocols UDP/TCP/FTP/SMTP
Support interfaces UART, USB2.0, I2S, SPI, I2C, PCM.
Support SIM interface 1.8V / 3V
Input Power: 3.3V – 4.2V
Operating Temperature: -30 Celsius degree to +85 Celsius degree
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CipherTech Module IPCore for Voice and Audio Processing
CipherTech IP Core developed on an Integrated Circuit for enhancing voice processing speed and quality Audio Codec
Module Long-Term Prediction enhances audio quality by using the Speex algorithm for audio compression codec with high performance computing, and using optimized assembly language on ARM Cortex M3 platform
Module Vector Quantization enhances the Speex algorithm with high performance computing, code optimized by using assembly language on ARM Cortex M3 platform
Support APIs with compilers GCC, IAR, ARM
Cryptography IP
Our IP cores designed for maximum ease of integration, providing industry standard interfaces such as AXI/AHB/APB that are typically used in SoC architectures in both ASIC and FPGA. Cryptography hardware solution offloads 100% of the cryptography operations from the main processor to the custom logic. In addition, we also see an increase in cryptography performance, which may be as high as 100X compared to a software-only solution, depending on the application and the cryptography used.
We have developed a suite of IP blocks for ASIC or FPGA applications, covering all complex cryptographic calculations needed to run TLS/SSL. These include algorithms such as RSA/ECC, AES, SHA, and true random number generation. The RSA/ECC operations are used during the authentication phase between servers and clients but also during key exchanges (Diffie-Helman algorithms). Once both sides have established a common secret (i.e. a symmetric key), the AES algorithm, which may be combined with a hash function (SHA-1/SHA-2), is used to encrypt/decrypt and authenticate the data on both sides of the communication channel.