JAJSSS6 データシート

JAJSSS6 January 2024 TPS7H3014-SP

ADVANCE INFORMATION

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）

HFT|22
- MCCF005B

サーマルパッド・メカニカル・データ

発注情報

jajsss6_oa

6.8 Typical Characteristics

R_{DLY_TMR} = 10kΩ, R_{REG_TMR} = 10kΩ, V_{PULL_UP1} = 3.3V, V_{PULL_UP2} = 3.3V, V_FAULT = 10kΩ pull-up to VLDO, R_HYS = 50kΩ, C_REFCAP = 470nF, C_VLDO = 1μF, C_{PULL_UP1} = 1μF, C_{PULL_UP2} = 1μF, unless otherwise noted.

V_UP = V_DOWN = 0V

Figure 6-1 I_{Q_IN} vs V_IN Across Temperature in Waiting to Sequence UP State

V_UP = V_DOWN = 3.3V

Figure 6-3 I_{Q_IN} vs V_IN Across Temperature in Waiting to Sequence DOWN State

R_{DLY_TMR} = Floating	V_UP = V_DOWN = 3.3V
R_{REG_TMR} = 1.18MΩ

Figure 6-5 Undervoltage Lockout vs Temperature

V_IN = 3V	V_SENSEx = 700mV

Figure 6-7 I_{HYS_SENSEx} Current Distribution at Temperature of –55°C

V_IN = 3V	V_SENSEx = 700mV

Figure 6-9 I_{HYS_SENSEx} Current Distribution at Temperature of 125°C

Figure 6-11 V_{TH_SENSEx} Voltage Distribution at Temperature of +25°C

V_UP = V_DOWN= 0V

Figure 6-13 REFCAP vs V_IN Across Temperature

V_UP = V_DOWN = 0V

Figure 6-15 VLDO vs V_IN Across Temperature

V_UP = V_DOWN = 0V	I_LOAD = –2mA
R_{REG_TMR} = Floating

Figure 6-17 V_{OL_EN1} vs Temperature Across V_{PULL_UP1} and V_IN at I_LOAD = –2mA

V_UP = V_DOWN = 3.3V	I_LOAD = 2mA
R_{REG_TMR} = Floating	V_IN = 12V

Figure 6-19 V_{OH_EN1} vs Temperature Across V_{PULL_UP1} at I_LOAD = 2mA

V_UP = V_DOWN = ↑ 3.3V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-21 SR_{EN1_RISE} vs V_{PULL_UP1} Across Temperature

V_UP = V_DOWN = ↑ 3.3V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-23 SR_{PWRGD_RISE} vs V_{PULL_UP2} Across Temperature

V_UP = V_DOWN = ↓ 0V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-25 SR_{EN1_FALL} vs V_{PULL_UP1} Across Temperature

V_UP = V_DOWN = ↓ 0V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-27 SR_{PWRGD_FALL} vs V_{PULL_UP2} Across Temperature

V_UP = V_DOWN = 3.3V	V_IN = 12V
R_{REG_TMR} = Floating	I_LOAD = 2mA

Figure 6-29 R_{EN1_PULL_UP} vs Temperature Across V_{PULL_UP1}

V_UP = V_DOWN= 0V

Figure 6-2 I_{Q_IN} vs Temperature Across V_IN in Waiting to Sequence UP State

V_UP = V_DOWN = 3.3V

Figure 6-4 I_{Q_IN} vs Temperature Across V_IN in Waiting to Sequence DOWN State

V_SENSEx = 700mV	R_{REG_TMR} = Floating

Figure 6-6 I_{HYS_SENSEx} vs Temperature Across V_IN and SENSEx Channel

V_IN = 3V	V_SENSEx = 700mV

Figure 6-8 I_{HYS_SENSEx} Current Distribution at Temperature of 25°C

Figure 6-10 V_{TH_SENSEx} Voltage Distribution at Temperature of –55°C

Figure 6-12 V_{TH_SENSEx} Voltage Distribution at Temperature of 125°C

V_UP = V_DOWN = 0V

Figure 6-14 REFCAP vs Temperature Across V_IN

V_UP = V_DOWN = 0V	R_{REG_TMR} = Floating

Figure 6-16 VLDO vs Temperature Across V_IN

V_UP = V_DOWN = 0V	I_LOAD = –10mA
R_{REG_TMR} = Floating

Figure 6-18 V_{OL_EN1} vs Temperature Across V_{PULL_UP1} and V_IN at I_LOAD = –10mA

V_UP = V_DOWN = 3.3V	I_LOAD = 10mA
R_{REG_TMR} = Floating	V_IN = 12V

Figure 6-20 V_{OH_EN1} vs Temperature Across V_{PULL_UP1} at I_LOAD = 10mA

V_UP = V_DOWN = ↑ 3.3V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-22 SR_{EN1_RISE} vs Temperature Across V_{PULL_UP1}

V_UP = V_DOWN = ↑ 3.3V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-24 SR_{PWRGD_RISE} vs Temperature Across V_{PULL_UP2}

V_UP = V_DOWN = ↓ 0V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-26 SR_{EN1_FALL} vs Temperature Across V_{PULL_UP1}

V_UP = V_DOWN = ↓ 0V	V_IN = 12V
R_{REG_TMR} = Floating

Figure 6-28 SR_{PWRGD_FALL} vs Temperature Across V_{PULL_UP2}

V_UP = V_DOWN = 0V	V_IN = 12V
R_{REG_TMR} = Floating	I_LOAD = –2mA

Figure 6-30 R_{EN1_PULL_DOWN} vs Temperature Across V_{PULL_UP1}