Datasheet L5965 (STMicroelectronics) - 9

ManufacturerSTMicroelectronics
DescriptionMultiple power management for automotive vision and radar systems
Pages / Page85 / 9 — L5965. Electrical characteristics. Symbol. Parameter. Test condition. …
File Format / SizePDF / 1.3 Mb
Document LanguageEnglish

L5965. Electrical characteristics. Symbol. Parameter. Test condition. Min. Typ. Max. Unit. Power on reset. Oscillator. VREG. BUCK1. DS12567. Rev 2

L5965 Electrical characteristics Symbol Parameter Test condition Min Typ Max Unit Power on reset Oscillator VREG BUCK1 DS12567 Rev 2

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L5965 Electrical characteristics Symbol Parameter Test condition Min. Typ. Max. Unit Power on reset
VPOR_R VBAT1 threshold VBAT1 rising 3 3.4 3.8 V VPOR_F VBAT1 threshold VBAT1 falling 2.8 3.2 3.6 V
Oscillator
fosc Oscillator frequency – 4.08 4.8 5.52 MHz fIN Input frequency at SYNCIN pin – 1.8 – 2.76 MHz VHSYNC SYNCIN high threshold – 2.1 – – V VLSYNC SYNCIN low threshold – – – 1 V
VREG
I V VREG= 0 mA~50 mA, EXTSUP = VREG BUCK1 gate driver inner regulated supply 5.8 6.0 6.2 V 6.3~12 V I V VREG = 5 mA~50 mA, EXTSUP EXTSUP_TH Switch over threshold – 4.7 – rising, in ACTIVE mode VEXTSUP_HYS Switch over hysteresis – – 0.2 – V Iload = 50 mA, supplied by VBAT1 – – 0.25 V VDROP_VREG Drop out voltage at VREG Iload = 50 mA, supplied by EXTSUP – – 0.4 V ILIM_REG VREG current limitation Supplied by VBAT1/EXTSUP 60 85 - mA CVREG Capacitive load – – 2.2 – µF VREG_OK VREG under voltage threshold VREG rising – 4 – V VREG_OK VREG under voltage threshold Hysteresis – 0.26 – V
BUCK1
VIN_BUCK1 Input voltage range – 4 – 32 V OTP = 000 5.0 V OTP = 001 3.8 V OTP = 010 3.3 V Output voltage OTP = 011 1.8 V V +2.5 OUT_BUCK1 -2.5% (> 200 mA, static) % OTP = 100 1.2 V OTP = 101 1.1 V OTP = 110 1.0 V OTP = 111 0.8 V Cycle by cycle current limitation sense Vsense – – 80 – mV voltage FSW_BUCK1 Switching frequency – 340 400 460 kHz Fspread_BUCK1 Spread spectrum range Fsw = 400 kHz -20 – 20 %
DS12567
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Rev 2 page 9/85
Document Outline 1 Overview 1.1 Simplified block diagram 1.2 Functional block diagram 2 Pins description 3 Electrical specifications 3.1 Absolute maximum ratings & operating voltage 3.2 Thermal data 3.2.1 Thermal resistance 3.2.2 Thermal warning and protection 3.3 Electrical characteristics 3.3.1 Electrical characteristic curves 4 Functional description 4.1 Programming by OTP 4.2 Voltage regulators and features description 4.2.1 VREG 4.2.2 Pre regulator BUCK1 4.2.3 Pre regulator BUCK2 4.2.4 Post regulator BUCK3 4.2.5 Post regulator BUCK4 4.2.6 BOOST 4.2.7 LDO 4.2.8 VREF 4.2.9 ADC 4.2.10 Wake up pin (WKUP) 4.2.11 Synchronizing pin (SYNC in/out) 4.2.12 Reset and Fault 4.2.13 Configurable watchdog and reset 4.2.14 Under-Voltage, Over-Voltage and Power-Good 4.2.15 Temperature control and VBATx voltage through internal ADC 4.2.16 Maximum Duty Cycle and Refresh Mode for Buck 4.2.17 Frequency-Hopping Spread Spectrum 5 SPI format and register mapping 5.1 SPI frame CRC generator 5.2 SPI registers mapping 5.2.1 SPI REG BUCK1 5.2.2 SPI REG BUCK2 5.2.3 SPI REG WD_REC_EN 5.2.4 SPI REG BUCK4 5.2.5 SPI REG BOOST VREF 5.2.6 SPI REG BUCK EN 5.2.7 SPI REG WD 5.2.8 SPI REG BUCK STAT1 5.2.9 SPI REG BUCK STAT2 5.2.10 SPI REG Fault Table PWUP 5.2.11 SPI REG ADC TH1 5.2.12 SPI REG ADC TH2 5.2.13 SPI REG ADC TH3 5.2.14 SPI REG ADC TH4 5.2.15 SPI REG ADC TH5 5.2.16 SPI REG ADC TH6 5.2.17 SPI REG ADC TH7 5.2.18 SPI REG ADC VBAT1 5.2.19 SPI REG ADC VBAT2 5.2.20 SPI REG OT Warning 5.2.21 SPI Fault STAT 5.2.22 SPI Silicon Version 5.2.23 SPI Device Identification 6 Device operating mode 6.1 Shutdown mode 6.2 Standby mode 6.3 INIT mode 6.4 REC mode 6.5 RAMPUP MAIN and SEC_UP 6.6 ACTIVE mode 6.7 OTP program mode 6.8 OTP bit mapping and register configuration 6.9 OTP (SAF) registers 6.9.1 SAF_REG_OP 6.9.2 SAF_REG_CFG 6.9.3 SAF_REG_DI 6.9.4 SAF_REG_D0_Bit_Ts 6.9.5 SAF_REG_STAT 6.10 Power down phase 6.11 Power up programming 7 Functional safety requirements 7.1 Functions and safety mechanism related to safety requirements 7.2 System safety mechanism 8 Application information 8.1 External components calculation 8.1.1 BUCK1 controller 8.1.1.1 RSENSE 8.1.1.2 BUCK1 output inductor 8.1.1.3 BUCK1 output capacitor 8.1.1.4 BUCK1 bootstrap capacitor 8.1.1.5 BUCK1 compensation network 8.1.2 BUCK2 controller 8.1.2.1 BUCK2 output inductor 8.1.2.2 BUCK2 output capacitor 8.1.2.3 BUCK2 compensation network 8.1.3 BUCK3, BUCK4 8.1.3.1 Output inductor and capacitor 8.1.3.2 Bootstrap capacitor for BUCK3 and BUCK4 8.1.3.3 Input capacitor 8.1.4 BOOST 8.1.4.1 BOOST output inductor 8.1.4.2 BOOST output capacitor 8.1.4.3 BOOST compensation network 8.1.4.4 Output diode for the BOOST converter 8.1.4.5 Input capacitor selection 8.2 PCB Layout example (BUCK1 as main regulator) 9 Package information 9.1 VFQFPN-48 (7x7x1.0 mm - opt. D) package information 9.2 VFQFPN-48 (7x7x1.0) marking information Revision history