JAJSSK1 December 2023 AM62P , AM62P-Q1
ADVANCE INFORMATION
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
This section describes connectivity requirements for package balls that have specific connectivity requirements and unused package balls.
All power pins must be supplied with the voltages specified in Section 6.5, Recommended Operating Conditions, unless otherwise specified.
For additional clarification, "leave unconnected" or "no connect" (NC) means no signal traces can be connected to these device ball numbers.
AMH BALL NUMBER |
BALL NAME | CONNECTION REQUIREMENTS |
---|---|---|
G6 B13 |
MCU_ERRORn TRSTn |
Each of these balls must be connected to VSS through separate external pull resistors to ensure these balls are held to a valid logic low level if a PCB signal trace is connected and not actively driven by an attached device. The internal pull-down can be used to hold a valid logic low level if no PCB signal trace is connected to the ball. |
B12 D13 F11 G24 C13 E13 E14 |
EMU0 EMU1 MCU_RESETz RESET_REQz TCK TDI TMS |
Each of these balls must be connected to the corresponding power supply(1) through separate external pull resistors to ensure the inputs associated with these balls are held to a valid logic high level if a PCB signal trace is connected and not actively driven by an attached device. The internal pull-up can be used to hold a valid logic high level if no PCB signal trace is connected to the ball. |
E11 D11 A13 C11 |
MCU_I2C0_SCL MCU_I2C0_SDA WKUP_I2C0_SCL WKUP_I2C0_SDA |
Each of these balls must be connected to the corresponding power supply(1) through separate external pull resistors to ensure the inputs associated with these balls are held to a valid logic high level. |
U22 U21 U20 V25 T20 T21 V24 W25 AC25 AB25 AA25 W24 Y24 AD25 AB24 AC24 |
GPMC0_AD0 GPMC0_AD1 GPMC0_AD2 GPMC0_AD3 GPMC0_AD4 GPMC0_AD5 GPMC0_AD6 GPMC0_AD7 GPMC0_AD8 GPMC0_AD9 GPMC0_AD10 GPMC0_AD11 GPMC0_AD12 GPMC0_AD13 GPMC0_AD14 GPMC0_AD15 |
Each of these balls must be connected to the corresponding power supply(1) or VSS through separate external pull resistors to ensure the inputs associated with these balls are held to a valid logic high or low level as appropriate to select the desired device boot mode. |
1G2 1H1 AE2 B1 1C1 1D2 1E1 1F1 1E2 |
VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR VDDS_DDR_C |
If DDRSS is not used, each of these balls must be connected directly to VSS. |
T6 K3 T5 T1 P6 T4 K5 L2 L3 M2 N2 K2 N3 L1 M1 T2 R2 N5 P3 P2 N6 K4 Y6 U6 Y5 R1 P1 N4 P5 L6 T3 C3 H3 V4 AD1 B2 A3 A4 A5 A2 B4 D2 C4 E2 F1 G5 F2 G3 H4 J2 G2 U2 U3 U5 V5 V2 Y2 Y3 AA4 AC2 AA2 AC4 AD2 AD3 AC3 AE4 AE3 D1 C1 J1 H1 W1 V1 AA1 AB1 L5 V6 AA5 |
DDR0_ACT_n DDR0_ALERT_n DDR0_CAS_n DDR0_PAR DDR0_RAS_n DDR0_WE_n DDR0_A0 DDR0_A1 DDR0_A2 DDR0_A3 DDR0_A4 DDR0_A5 DDR0_A6 DDR0_A7 DDR0_A8 DDR0_A9 DDR0_A10 DDR0_A11 DDR0_A12 DDR0_A13 DDR0_BA0 DDR0_BA1 DDR0_BG0 DDR0_BG1 DDR0_CAL0 DDR0_CK0 DDR0_CK0_n DDR0_CKE0 DDR0_CKE1 DDR0_CS0_n DDR0_CS1_n DDR0_DM0 DDR0_DM1 DDR0_DM2 DDR0_DM3 DDR0_DQ0 DDR0_DQ1 DDR0_DQ2 DDR0_DQ3 DDR0_DQ4 DDR0_DQ5 DDR0_DQ6 DDR0_DQ7 DDR0_DQ8 DDR0_DQ9 DDR0_DQ10 DDR0_DQ11 DDR0_DQ12 DDR0_DQ13 DDR0_DQ14 DDR0_DQ15 DDR0_DQ16 DDR0_DQ17 DDR0_DQ18 DDR0_DQ19 DDR0_DQ20 DDR0_DQ21 DDR0_DQ22 DDR0_DQ23 DDR0_DQ24 DDR0_DQ25 DDR0_DQ26 DDR0_DQ27 DDR0_DQ28 DDR0_DQ29 DDR0_DQ30 DDR0_DQ31 DDR0_DQS0 DDR0_DQS0_n DDR0_DQS1 DDR0_DQS1_n DDR0_DQS2 DDR0_DQS2_n DDR0_DQS2 DDR0_DQS2_n DDR0_ODT0 DDR0_ODT1 DDR0_RESET0_n |
If DDRSS is not used, leave unconnected.Note: The DDR0 pins in this list can only be left unconnected when VDDS_DDR and VDDS_DDR_C are connected to VSS. The DDR0 pins must be connected as defined in the DDR Board Design and Layout Guidelines, when VDDS_DDR and VDDS_DDR_C are connected to a power source. |
1K3 1J1 |
VDD_MMC0 VDDA_0P85_DLL_MMC0 |
If MMC0 is not used, each of these balls must be connected to the same power source as VDD_CORE. |
1K2 | VDDS_MMC0 | If MMC0 is not used, each of these balls must be connected to any 1.8-V power source that does not violate device power supply sequencing requirements. |
AC5 AA6 AB8 AD5 AC7 AB7 AD6 AE5 AE6 AC6 AA7 AB6 |
MMC0_CALPAD MMC0_CLK MMC0_CMD MMC0_DS MMC0_DAT0 MMC0_DAT1 MMC0_DAT2 MMC0_DAT3 MMC0_DAT4 MMC0_DAT5 MMC0_DAT6 MMC0_DAT7 |
If MMC0 is not used, each of these balls must be left unconnected. |
1J4 1K5 Y11 |
VDDA_CORE_USB VDDA_1P8_USB VDDA_3P3_USB |
USB0 and USB1 share these power rails, so each of these balls must be connected to valid power sources when either USB0 or USB1 is used.If USB0 and USB1 are not used, each of these balls must be connected directly to VSS. |
AE8 AE7 Y8 Y7 AE10 AE9 1K4 Y10 |
USB0_DM USB0_DP USB0_RCALIB USB0_VBUS USB1_DM USB1_DP USB1_RCALIB USB1_VBUS |
If USB0 or USB1 is not used, leave the respective DM, DP, and VBUS balls unconnected.Note: The USB0_RCALIB and USB1_RCALIB pins can only be left unconnected when VDDA_CORE_USB, VDDA_1P8_USB, and VDDA_3P3_USB are connected to VSS. The USB0_RCALIB and USB1_RCALIB pins must be connected to VSS through separate appropriate external resistors when VDDA_CORE_USB, VDDA_1P8_USB, and VDDA_3P3_USB are connected to power sources. |
1K6 IK8 IK7 |
VDDA_CORE_CSI_DSI VDDA_CORE_DSI_CLK VDDA_1P8_CSI_DSI |
If CSIRX0 and DSITX0 are not used and the device boundary scan function is required, each of these balls must be connected to valid power sources.If CSIRX0 and DSITX0 are not used and the device boundary scan function is not required, each of these balls can alternatively be connected directly to VSS. |
AE12 AE11 AB11 AB10 AC10 AC9 AA10 AA9 AD9 AD8 AA15 |
CSI0_RXCLKN CSI0_RXCLKP CSI0_RXN0 CSI0_RXP0 CSI0_RXN1 CSI0_RXP1 CSI0_RXN2 CSI0_RXP2 CSI0_RXN3 CSI0_RXP3 CSI0_RXRCALIB |
If CSIRX0 is not used, leave unconnected. |
AA12 AA13 AD11 AD12 AB13 AB14 AC12 AC13 AE14 AE15 Y16 |
DSI0_TXCLKN DSI0_TXCLKP DSI0_TXN0 DSI0_TXP0 DSI0_TXN1 DSI0_TXP1 DSI0_TXN2 DSI0_TXP2 DSI0_TXN3 DSI0_TXP3 DSI0_TXRCALIB |
If DSITX0 is not used, leave unconnected. |
AE20 AD20 AC19 AD19 AA19 AB19 AD18 AE19 AD17 AD16 AB17 AC17 AC16 AC15 AB16 AA16 AE18 AE17 AD15 AD14 |
OLDI0_A0N OLDI0_A0P OLDI0_A1N OLDI0_A1P OLDI0_A2N OLDI0_A2P OLDI0_A3N OLDI0_A3P OLDI0_A4N OLDI0_A4P OLDI0_A5N OLDI0_A5P OLDI0_A6N OLDI0_A6P OLDI0_A7N OLDI0_A7P OLDI0_CLK0N OLDI0_CLK0P OLDI0_CLK1N OLDI0_CLK1P |
If OLDI0 is not used, leave unconnected. |
1A6 | VMON_VSYS | If VMON_VSYS is not used, this ball must be connected directly to VSS. |
1A10 1A4 |
VMON_1P8_SOC VMON_3P3_SOC |
If VMON_1P8_SOC and VMON_3P3_SOC are not used to monitor the SOC power rails, these balls must remain connected to their respective 1.8-V and 3.3-V power rails or connected directly to VSS. |
Internal pull resistors are weak and may not source enough current to maintain a valid logic level for some operating conditions. This can be the case when connected to components with leakage to the opposite logic level, or when external noise sources couple to signal traces attached to balls which are only pulled to a valid logic level by the internal resistor. Therefore, external pull resistors are recommended to hold a valid logic level on balls with external connections.
Many of the device IOs are turned off by default and external pull resistors may be required to hold inputs of any attached device in a valid logic state until software initializes the respective IOs. The state of configurable device IOs are defined in the BALL STATE DURING RESET RX/TX/PULL and BALL STATE AFTER RESET RX/TX/PULL columns of the Pin Attributes table. Any IO with its input buffer (RX) turned off is allowed to float without damaging the device. However, any IO with its input buffer (RX) turned on shall never be allowed to float to any potential between VILSS and VIHSS. The input buffer can enter a high-current state which could damage the IO cell if allowed to float between these levels.