SLASF94 Data sheet

SLASF94A May 2024 – October 2024 MSPM0L1228 , MSPM0L2227 , MSPM0L2228

PRODUCTION DATA

パッケージ・オプション

メカニカル・データ（パッケージ｜ピン）

PN|80
- MTQF010B

サーマルパッド・メカニカル・データ

発注情報

slasf94a_oa

7.10.4 High Frequency Crystal/Clock

over operating free-air temperature range (unless otherwise noted)

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
High frequency crystal oscillator (HFXT)
f_HFXT	HFXT frequency	HFXTRSEL=00	4		8	MHz
		HFXTRSEL=01	8.01		16
		HFXTRSEL=10	16.01		32
DC_HFXT	HFXT duty cycle	HFXTRSEL=00	40		65	%
		HFXTRSEL=01	40		60
		HFXTRSEL=10	40		60
		HFXTRSEL=11	40		60
OA_HFXT	HFXT crystal oscillation allowance	HFXTRSEL=00 (4 to 8MHz range)		2		kΩ
C_{L, eff}	Integrated effective load capacitance⁽¹⁾			1		pF
t_{start, HFXT}	HFXT start-up time ⁽²⁾	HFXTRSEL=11, 32MHz crystal		0.5		ms
I_HFXT	HFXT current consumption	f_HFXT=4MHz, R_m=300Ω, C_L=12pF		75		uA
I_HFXT	HFXT current consumption	f_HFXT=32MHz, R_m=30Ω, C_L=12pF, C_m=6.26fF, L_m=1.76mH		600		uA
High frequency digital clock input (HFCLK_IN)
f_HFIN	HFCLK_IN frequency ⁽³⁾	USEEXTHFCLK=1	4		32	MHz
DC_HFIN	HFCLK_IN duty cycle ⁽³⁾	USEEXTHFCLK=1	40		60	%

(1) This includes parasitic bond and package capacitance (≈2pF per pin), calculated as C_HFXIN×C_HFXOUT/(C_HFXIN+C_HFXOUT), where C_HFXIN and C_HFXOUT are the total capacitance at HFXIN and HFXOUT, respectively.

(2) The HFXT startup time (t_{start, HFXT}) is measured from the time the HFXT is enabled until stable oscillation for a typical crystal. Start-up time is dependent upon crystal frequency and crystal specifications. Refer to the HFXT section of the MSPM0 G-Series 80-MHz Microcontrollers Technical Reference Manual.

(3) The digital clock input (HFCLK_IN) accepts a logic level square wave clock.