Einleitung
Apple hat die M1 Pro/Max Prozessoren in den 2021 MacBook Pros vorgestellt. Wie verändern diese neuen hauseigenen SoCs den übrigen Aufbau des Logic Boards? In dieser Chip-ID-Übersicht kannst du das herausfinden!
Hut ab an unser Community-Mitglied C. Chin für diesen Beitrag!
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IC-Identifikation, Teil 1:
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Apple APL1103 M1 Pro System-on-a-Chip (SoC)
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Samsung K3LKYKY0EM-ZGCP 8 GB LPDDR5 SDRAM Speicher (16 GB total)
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Kioxia KICM225UZ0460 128 GB NAND Flash Speicher
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Apple APL1098/343S00515 Energiemanagement
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Apple 338S00600 Energiemanagement
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Kinetic Technologies MCDP2920 DisplayPort-to-HDMI Wandler
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Genesys Logic GL9755A Kartenleser Steuerung
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IC-Identifikation, Teil 2:
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Intel JHL8040R Thunderbolt 4 Retimer
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Macronix MX25U6472F 64 Mb Serieller NOR Flash Speicher
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Winbond W25Q80DVUXIE 8 Mb Serieller NOR Flash Speicher
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Renesas RAA225701C ? Synchroner Abwärtswandler
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Analog Devices LT86422 Synchroner Abwärtswandler
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Texas Instruments TPS62130B Abwärtswandler
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Texas Instruments TPS62180 6 A Abwärtswandler
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IC-Identifikation, Teil 3:
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Texas Instruments TVS2200 Überspannungsschutz
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ON Semiconductor FPF2495CUCX Lastschalter
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Texas Instruments Lastschalter (vermutlich)
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ON Semiconductor NCV8160AMX500TBG 250 mA / 5.0 V LDO Regler
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Nexperia 74AVC2T45 Dual-Bit Spannungspegel-Umsetzer/Sendeempfänger
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Texas Instruments SN74AXC1T45 Ein-Bit Bus Sendeempfänger
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Nexperia 74AUP1G07 Einzelpuffer
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IC-Identifikation, Teil 4:
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Texas Instruments LSF0102 2-Kanal Multispannungs-Pegelumsetzer
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Nexperia LSF0101 1-Bit Multispannungs-Pegelumsetzer
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Texas Instruments SN74AUP2G07 Zweifach-Puffer
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Texas Instruments SN74LVC1G07 Einfachpuffer
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Nexperia 74AUP1G17 Schmitt Trigger
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Nexperia 74AUP1G08 Einfaches UND-Gatter
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IC-Identifikation, Teil 1:
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Kioxia KICM225VF9081 128 GB NAND Flash Speicher
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USI 339S00912 Bluetooth/WLAN Modul
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NXP Semiconductor SN210V NFC Controller mit Secure Element
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Texas Instruments CD3217B12 USB Type-C Port/Power Delivery Controller
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Renesas ISL9240 Li-Ion Batterieladegerät
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Winbond W25Q80EWUXIE 8 Mb Serieller NOR Flash Speicher
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Winbond W25Q80DVUXIE 8 Mb Serieller NOR Flash Speicher
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IC-Identifikation, Teil 2:
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Renesas Leistungsphasen PWM Controller
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Cirrus Logic CS42L84A Audio Codec
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Texas Instruments SN012776B0 Audio Verstärker
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Texas Instruments TPS62130B Abwärtswandler
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Renesas RAA209100 Aufwärtswandler (vermutlich)
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Texas Instruments LP8548B1 Hintergrund LED Treiber
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Texas Instruments TUSB2E22 USB 2.0 Zweifach Repeater (vermutlich)
Texas Instruments LP8548B1 is the Keyboard Backlight Driver here. It was used as both LCD and keyboard backlight driver in previous Macbooks, but not anymore. The new LCD backlight driver is RAA209100. It drives MOSFETs on the other side of the board (same location) connection directly to the LCD connector. The listing could be updated accordingly.
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IC-Identifikation, Teil 3:
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Texas Instruments INA190A3 Stromsensor-Verstärker
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Texas Instruments INA190A4 Stromsensor-Verstärker
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Maxim Integrated MAX9620 1.5 MHz Rail-to-Rail Eingang/Ausgang Operationsverstärker
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ON Semiconductor NCS333ASQ3T2G Einfach Operationsverstärker
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Dialog Semiconductor Mischsignal Array (vermutlich)
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NXP Semiconductor PCAL6416A 16-Bit I/O Erweiterungsmodul
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Analog Devices ADG1422BCPZ Dualer SPST Analogschalter
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IC-Identifikation, Teil 4:
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Texas Instruments REF3325 2,5 V Referenzspannung
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Texas Instruments TLV75801P 500 mA / . LDO Regler
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Texas Instruments TLV75533P 500 mA / 3.3 V LDO Regler
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Texas Instruments LP5907SNX-3.0 250 mA / 3.0 V LDO Regler
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ON Semiconductor NCP163BMX180TBG 250 mA / 1.8 V LDO Regler (vermutlich)
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Texas Instruments TLV70733P 200 mA / 3.3 V LDO Regler
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Texas Instruments TPS7A201825 200 mA / 1.825 V LDO Regler
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IC-Identifikation, Teil 5:
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Nexperia 74AVC4T774 4-Bit Umsetzender Sendeempfänger
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Nexperia 74AUP1T45 Umsetzender Sendeempfänger
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Texas Instruments LSF0102 2-Ch. Multi-Spannungspegelumsetzer
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Nexperia LSF0101 Ein-Bit-Multi-Spannungspegelumsetzer
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Nexperia 74AVC2T45 Zwei-Bit-Spannungspegelumsetzer
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Texas Instruments SN74AUP1T34 Ein-Bit-Spannungspegelumsetzer
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Texas Instruments SN74AXC1T45 Ein-Bit-Bus-Spannungspegelumsetzer
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IC-Identifikation, Teil 6:
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Nexperia 74AXP1T34 Puffer
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Nexperia 74AUP2G07 Zweifachpuffer
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Texas Instruments SN74LVC1G07 Einfachpuffer
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Nexperia 74AUP1G17 Schmitt Trigger
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Nexperia 74LVC2G32 Duales OR Gatter
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Texas Instruments SN74AUP1G32 Einfaches OR Gatter
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Texas Instruments TPD4S311A USB Typ-C Port Schutz
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IC-Identifikation, Sensoren:
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Bosch Sensortec BMI282 6-Axis MEMS Beschleunigungsmesser/Gyroskop
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IC-Identifikation:
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STMicroelectronics STM32L4P5QG 32-Bit ARM Cortex-M4 Microcontroller mit 1 MB Flash Speicher
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Broadcom BCM5976C1 Touchpad Regler
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Maxim Integrated MAX11390A A/D-Wandler (vermutlich)
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Monolithic Power Systems MP6519 5A H-Brücken-Stromregler
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Texas Instruments TPS3831G18 1.67V Spannungsversorgungsüberwachung
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Texas Instruments TPS22915 Lastschalter
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IC-Identifikation, Sensoren:
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Bosch Sensortec BMA282 3-Achsen Beschleunigungsmesser
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Texas Instruments TMP461 Temperatursensor
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10 Kommentare
In practise, the efficiency of an LDO regulator is dependent on how much voltage it is dropping. While operating, an LDO is effectively a resistor that varies in real-time to ensure its output voltage stays stable despite changes in load current.
Power = I (current) x V (voltage)
Since an LDO is a resistive element, yes, it burns off energy as heat in this process. So an LDO dropping 18V to 5V could be very inefficient, more so when driving a higher current load as shown by the formula above. However, if an LDO is used to generate a 3.3V rail from a 5V rail, it is dropping just 1.7V, resulting in less power dissipation for the same load current.
You’re right, using an LDO for a large voltage drop is not good electrical design. But LDOs have excellent noise rejection performance, meaning they can take a noisy rail from a switching buck/boost converter with lots of transient or high-draw components on it, and create a much cleaner rail for lower-current, more sensitive devices. This is what I expect Apple’s doing.
iEvan -
LDOs drop the difference in voltage as heat, yes - hence the voltage difference between input and output determines the efficiency (eg a 3.0v LDO fed by 6.0v is 50% efficient).
In many cases where LDOs are used in designs the amount of lost power is negligible as the current being drawn is so small - simply not worth using a switcher for that rail. Also, LDOs typically have cleaner output so often an LDO is used to isolate an analog subsystem from noise on the main (digital) system rails.
Hugo -
+ some designs will have both a switcher and an LDO for the same power rail and switch to the LDO when the current is very low. Switchers get inefficient at low currents, so having both can improve efficiency.
Dan K -
Hello! We currently don’t have chip ID plans for the M1 Pro Max version.
I’m planning a few projects, can someone provide the logic-board dimensions?
Ahh perfect the CD3217B12 will ultimately fail on these like the CD3217 & CD3215 before them
Does anyone know what is the accelerometer / gyroscope in step 11 doing here? I understand in trackpad Apple need an accelerometer (step 13) to get feedback from the massive “Taptic Engine”, but why on the main board? I recall Thinkpad used to have an accelerometer to stop mechanical hard drive when drastic movement detected. Is it here to stop malfunctioning fans? I’m completely lost here.🤪
MCDP2920 belongs to Kinetic Technologies now after the acquisition of Megachips’ smart connectivity group. (https://www.kinet-ic.com/kinetic-technol...)
luchen_silicon - Antwort
Please note that the MegaChips marked MCDP2920 is a Kinetic Technologies product.
Same as for the Apple-TV 2021
Gerard Pasman - Antwort
Thanks for the tip! I’ll update the bullet.
Arthur Shi - Antwort
what is mTWB for those "Kioxia KICM225UZ0460 128 GB NAND Flash Memory" chips?
Gennadiy Krokodilov - Antwort