MPF7100BVMA4ES 製品情報|NXP

特徴


Power management IC, i.MX 8DX/8DXP with DDR3L, pre-prog, 5 buck, 2 LDO, Auto or Industrial, QM, grade 2, QFN 48

パッケージ


HVQFN48: HVQFN48, thermal enhanced very thin quad flat package; no leads; dimple wettable flank; 48 terminals; 0.5 mm pitch, 7 mm x 7 mm x 0.9 mm body

購入オプション

操作機能

パラメータ
MCU Supported
i.MX8DX, i.MX8DXP
Supply Voltage [min] (V)
2.7
Supply Voltage [max] (V)
5.5
Output Current (A)
10
Number of Buck Regulators
5
Number of LDO
2
Switching Frequency LV Buck (MHz)
2, 3
Number of Boost Regulators
0
Number of Channels
9
パラメータ
Battery Charger
No battery charger
Ambient Operating Temperature (Min to Max) (℃)
-40 to 105
Safety Level
QM
Device Function
Power management IC for i.MX 8DX/8DXP with DDR3L system
Interface and Input Control
I2C
Additional Features - Analog
AMUX, Frequency Tuning, Multi-Phase, Spread Spectrum, Voltage Monitoring
Junction Temperature (Min to Max) (℃)
-40 to 150
Development Tools
KITPF7100FRDMEVM, KITPF7100FRDMPGM

環境

Part/12NC鉛フリーEU RoHSハロゲンフリーRHFインジケーターREACH SVHCWeight (mg)
MPF7100BVMA4ES(935410782557)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
DREACH SVHC
191.4
MPF7100BVMA4ESR2(935410782528)
Yes
Yes
Certificate Of Analysis (CoA)
Yes
DREACH SVHC
191.4

品質

Part/12NC安全保障機能安全吸湿感度レベル (MSL)Peak Package Body Temperature (PPT) (C°)Maximum Time at Peak Temperatures (s)
鉛フリーはんだ鉛フリーはんだ鉛フリーはんだ
MPF7100BVMA4ES
(935410782557)
Quality Managed
3
260
40
MPF7100BVMA4ESR2
(935410782528)
Quality Managed
3
260
40

配送

Part/12NC関税分類番号(米国)免責事項:輸出規制品目番号(米国)
MPF7100BVMA4ES
(935410782557)
854239
EAR99
MPF7100BVMA4ESR2
(935410782528)
854239
EAR99

製品変更のお知らせ

Part/12NC発行日有効期限PCNタイトル
MPF7100BVMA4ES
(935410782557)
2020-12-152020-12-16202011011INXP Will Add a Sealed Date to the Product Label

詳細 PF7100

The PF71 is a power management integrated circuit (PMIC) designed for high performance i.MX 8 processors. It features five high efficiency buck converters and two linear regulators for powering the processor, memory and miscellaneous peripherals.

Built-in one-time programmable memory stores key startup configurations, drastically reducing external components typically used to set output voltage and sequence of external regulators. Regulator parameters are adjustable through high-speed I²C after startup, offering flexibility for different system states.