Signal Description

600 Series Chipset Family On-Package Platform Controller Hub

Datasheet, Volume 1 of 2

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ID 691222

Date 01/05/2022

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Signal Name	Type	Description
GPIO fixed functions (Signals for Integrated Connectivity (CNVi) and Discrete Connectivity (CNVd) functions
GPP_R4 / HDA_RST# / I2S2_SCLK / DMIC_CLKA0	I/O	For CNVi: Unused For discrete connectivity with UART host support: Optional Bluetooth* I²S bus clock
GPP_F4 / CNV_RF_RESET#	I/O	For CNVi: RF companion (CRF) reset signal, active low. Require a 75 kohm Pull-Down on platform/motherboard level. It is recommended not to use it for bootstrapping during early Platform init flows. For discrete connectivity with UART host support: Optional Bluetooth* I²S bus sync
GPP_R6 / I2S2_TXD / DMIC_CLK_A1	O	For CNVi: Unused For discrete connectivity with UART host Bluetooth* support: Optional Bluetooth* I²S bus data output (input to Bluetooth* module)
GPP_R7 / I2S2_RXD / DMIC_DATA1	I	For CNVi: Unused. For discrete connectivity with UART host support: Optional Bluetooth* I²S bus data output (input to Bluetooth* module)
GPP_F0 / CNV_BRI_DT / UART2_RTS#	O	For CNVi: BRI bus TX. For discrete connectivity with UART host support: Bluetooth* UART RTS#
GPP_F1 / CNV_BRI_RSP / UART2_RXD	I	For CNVi: BRI bus RX. For discrete connectivity with UART host support: Bluetooth* UART RXD
GPP_F2 / CNV_RGI_DT / UART2_TXD	O	For CNVi: RGI bus TX. RGI_DT is used by the platform to strap presence of the CRF. Requires weak pull up of 20Kohm on the platform. For discrete connectivity with UART host support: Bluetooth* UART TXD
GPP_F3 / CNV_RGI_RSP / UART2_CTS#	I	For CNVi: RGI bus RX. For discrete connectivity with UART host support: Bluetooth* UART CTS#
GPP_F5 / MODEM_CLKREQ / CRF_XTAL_CLKREQ	O	For CNVi: SOC to CRF wake indication
GPP_F6 / CNV_PA_BLANKING	I/O	For CNVi and discrete connectivity : Optional WLAN/Bluetooth* WWAN co-existence signal. Used to be co-existence signal for external GNSS solution
GPP_H8 / I2C4_SDA / CNV_MFUART2_RXD	I	For CNVi and discrete connectivity: Optional WLAN/Bluetooth* WWAN co-existence signal (Input)
GPP_H9 / I2C4_SCL / CNV_MFUART2_TXD	O	For CNVi and discrete connectivity : Optional WLAN/Bluetooth* WWAN co-existence signal (Output)
Fixed special purpose I/O
CNV_WT_CLKP	O	CNVio bus TX CLK+
CNV_WT_CLKN	O	CNVio bus TX CLK-
CNV_WT_D0P	O	CNVio bus Lane 0 TX+
CNV_WT_D0N	O	CNVio bus Lane 0 TX-
CNV_WT_D1P	O	CNVio bus Lane 1 TX+
CNV_WT_D1N	O	CNVio bus Lane 1 TX-
CNV_WR_CLKP	I	CNVio bus RX CLK+
CNV_WR_CLKN	I	CNVio bus RX CLK-
CNV_WR_D0P	I	CNVio bus Lane 0 RX+
CNV_WR_D0N	I	CNVio bus Lane 0 RX-
CNV_WR_D1P	I	CNVio bus Lane 1 RX+
CNV_WR_D1N	I	CNVio bus Lane 1 RX-
Selectable special purpose I/O
USB2P_10	I/O	Bluetooth* USB host bus (positive) for discrete connectivity. Optional to connect to a Bluetooth* USB+ pin on the Bluetooth* module. Port 10 is the recommended port but other USB 2.0 ports can be selected for this function.
USB2N_10	I/O	Bluetooth* USB host bus (negative) for discrete connectivity. Optional to connect to a Bluetooth* USB+ pin on the Bluetooth* module. Port 10 is the recommended port but other USB 2.0 ports can be selected for this function.
PCIE12_TXP	O	Wi-Fi* PCIe* host bus TX (positive) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* PERp0 pin on the Wi-Fi* module. This is the recommended port but other PCIe* ports can be selected for this function.
PCIE12_TXN	O	Wi-Fi* PCIe* host bus TX (negative) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* PERn0 pin on the Wi-Fi* module. This is the recommended port but other PCIe* ports can be selected for this function.
PCIE12_RXP	I	Wi-Fi* PCIe* host bus RX (positive) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* PETp0 pin on the Wi-Fi* module. This is the recommended port but other PCIe* ports can be selected for this function.
PCIE12_RXN	I	Wi-Fi* PCIe* host bus RX (negative) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* PETn0 pin on the Wi-Fi* module. This is the recommended port but other PCIe* ports can be selected for this function.
CLKOUT_PCIE_P3	O	Wi-Fi* PCIe* host bus clock (positive) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* REFCLKp pin on the Wi-Fi* module. This is the recommended clock signal but other PCIe* clocks can be selected for this function.
CLKOUT_PCIE_N3	O	Wi-Fi* PCIe* host bus clock (negative) for discrete connectivity. Optional to connect to a Wi-Fi* PCIe* REFCLKp pin on the Wi-Fi* module. This is the recommended clock signal but other PCIe* clocks can be selected for this function.
CL_RST#	O	Wi-Fi* CLINK host bus reset for discrete connectivity with CLINK support (Intel^® vPro™). Optional to connect to a Wi-Fi* CLINK reset pin on the Intel^® vPro™ Wi-Fi* module.
CL_DATA	I/O	Wi-Fi* CLINK host bus data for discrete connectivity with CLINK support (Intel^® vPro™). Optional to connect to a Wi-Fi* CLINK data pin on the Intel^® vPro™ Wi-Fi* module.
CL_CLK	O	Wi-Fi* CLINK host bus clock for discrete connectivity with CLINK support (Intel^® vPro™). Optional to connect to a Wi-Fi* CLINK clock pin on the Intel^® vPro™ Wi-Fi* module.
W_Disable1# (GPIO)	O	Used for Wi-Fi* RF-Kill control. This pin can be connected to a platform switch or to SoC GPIOs (recommendation- if possible do not use GPIOs that have Platform impact as “bootstraps” during platform init). The signal must keep value in Sx state (configured in BIOS) The W_Disable signal have a Pull-up embedded in the CRF silicon, (this is an Active-Low signal).
W_Disable2# (GPIO)	O	Used for Bluetooth* RF-Kill control. This pin can be connected to a platform switch or to SoC GPIOs (recommendation- if possible do not use GPIOs that have Platform impact as “bootstraps” during platform init). The signal must keep value in Sx state (configured in BIOS) The W_Disable signal have a Pull-up embedded in the CRF silicon, (this is an Active-Low signal).