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802.11 IP

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Compare 80 IP from 33 vendors (1 - 10)
  • IEEE 802.11 n/ac/ax LDPC Decoder
    • LDPC Decoder, support all IEEE 802.11 n/ac/ax defined block lengths (648, 1296, 1944) and code rates (1/2, 2/3, 3/4 and 5/6).
    Block Diagram -- IEEE 802.11 n/ac/ax LDPC Decoder
  • IEEE 802.11 n/ac/ax LDPC Encoder
    • Encoder and decoder, support all IEEE 802.11 n/ac/ax de-fined block lengths (648, 1296, 1944) and code rates (1/2, 2/3, 3/4 and 5/6).
    Block Diagram -- IEEE 802.11 n/ac/ax LDPC Encoder
  • 802.11 LDPC
    • Throughput matching the required specifications.
    • Bit-error-rate and packet-error-rate performance meeting the required specification
  • Wi-Fi 802.11 ax/Wi-Fi 6 /Bluetooth LE v5.4/15.4-2.4GHz RF Transceiver IP for IOT Application in TSMC22 ULL
    • Metal Layer- 1P7M, 4X1Z1U
    • BW support for 20/ 40MHz
    • Supports 256 QAM (quadrature amplitude modulation)
    • Max Tx output power: +20dBm
    Block Diagram -- Wi-Fi 802.11 ax/Wi-Fi 6 /Bluetooth LE v5.4/15.4-2.4GHz RF Transceiver IP for IOT Application in TSMC22 ULL
  • Dual band WiFi N/G/B/A Digital Baseband IP
    • Supports data rates upto 65Mbps
    • Throughput numbers of above 50 Mbps for UDP and above 40 Mbps for TCP.
    • Support for authentication methods (Cisco® LEAP, PEAP with EAP-GTC support, CCKM with EAP-FAST) depend on the host platform.
    • Supports MAC enhancements including:802.11d -Regulatory domain operation,802.11e -QoSincluding WMM,802.11h –Transmit power control dynamic and frequency selection,802.11i -Security including WPA2 and WAPI compliance,802.11k -Radio resource measurement,802.11r –Roaming,802.11w -Management frame protection
    Block Diagram -- Dual band WiFi N/G/B/A Digital Baseband IP
  • IEEE 802.11 ah WiFi HaLow
    • STA Infrastructure BSS
    • Single stream
    • Channel Bandwidth: 1MHz and 2MHz
    Block Diagram -- IEEE 802.11 ah WiFi HaLow
  • 802.11 A/B/G/N Direct Conversion Transceiver
    • Fully Integrated 802.11 a/b/g/n Transceiver
    • High Performance
    • Low Power Consumption
    Block Diagram -- 802.11 A/B/G/N Direct Conversion Transceiver
  • 802.11 a b and g IEEE Standard - Wireless LAN
    • The MAC core for Wireless LAN is compatible with 802.11 a b and g IEEE Standards.
    • It is designed to handle packetized DSSS (Direct Sequence Spread Spectrum) and OFDM (Orthogonal Frequency Division Multiplexing) data transmissions; the software implementation supports all data rates.
    • The MAC management or control functionality is implemented in firmware while the time critical functionality is implemented in hardware.
    Block Diagram -- 802.11 a b and g IEEE Standard - Wireless LAN
  • 802.11 AX
    •  Increased Throughput: 802.11ax is designed to provide higher data rates compared to its predecessors, with a target throughput of at    least 4 times higher than 802.11ac Wave 2
    •  MU-MIMO (Multi-User, Multiple Input, Multiple Output): While MU-MIMO was introduced in 802.11ac, 802.11ax takes it a step further by    supporting both downlink and uplink MU-MIMO. This means that the access point can communicate with multiple devices    simultaneously, improving overall network efficiency.
  • LDPC for 5G DVBS2 802.11
    • High throughput
    • One encoder and decoder per matrix
    • Five cycles per iteration may increase to around 10 for timing between gates.
    • Has configuration parameters for stopping if code is diverging.
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