User's Manual

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SU60-SIPT

Datasheet

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3 60-SIPT

ERIES

EATURES

UMMARY

The Laird 60-SIPT series device features are described in Table 2.

Table 2: 60-SIPT series features

Feature Description

Radio Front End

Integrates the complete transmit/receive RF paths including band pass filter, diplexer,

switches, reference crystal oscillator, and power manage unit (PMU).

Supports 20/40/80MHz channel bandwidth.

WLAN/Bluetooth share one antenna.

The Bluetooth

word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. Any use of such

marks by Laird is under license. Other trademarks and trade names are those of their respective owners.

Coexistence Coexistence arbitration for WLAN, Bluetooth, and LTE operation

Power

Management

Dynamic Voltage Scaling (DVS) and Adaptive Voltage Scaling (AVS) features support the

latest Marvell SoC and Processor power control scheme.

Pre-Calibration RF system tested and calibrated in production

Sleep Clock An external sleep clock of 32.768 KHz is required during power save mode

Host Interface

 SDIO 3.0 (4-bit and 1-bit), SDR 12/25/50 mode (up to 100 MHz), USB2.0 or PCIe for

WLAN

 SDIO 3.0, USB 2.0, HS-UART for Bluetooth HCI (compatible with any upper layer

Bluetooth stack)

 PCM digital audio interface for Bluetooth audio application

Strap Value

CONFIG_HOST [2-0]

WLAN Bluetooth/BLE

ROM Notes

000

SDIO

UART

001

SDIO

010 PCIe USB 2.0 Initial USB 2.0 PHY and COM PHY PCIe portion

011 PCIe UART Initial only COM PHY PCIe portion

100

USB 2.0

UART

Initial COM PHY USB 2.0

101

USB 2.0

Initial only USB

2.0 PHY

Reference

Frequency



corporates a

MHz reference frequency source in package

 An external sleep clock is recommended for minimal current consumption. If no sleep clock

input is provided, an internal sleep clock (derived from reference clock) is

used. An approximate

50 uA current increase on the 3.3V rail.

Advanced WLAN



MPDU RX (de

aggregation) and TX (aggregation) supports 802.11ac single

MPDU A

MPDU.

 Multi-BSS/Station

 Transmit rate adaption, transmit power control

 Modulation and coding scheme (MCS): 802.11ac—MCS0-9 Nsts=1 and 2.

802.11n—MCS0-15

 Dynamic frequency selection (radar detection) DFS

 20/40/80 MHz channel bandwidths support

 On-chip gain selectable LNA with optimized noise figure and power consumption

 Internal PA with optimized gain distribution for linearity and noise performance

 Support wide variety of WLAN encryption: TKIP/WEP/AES