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RPI-COMPUTE3-KIT

RPI-COMPUTE3-KIT electronic component of Raspberry Pi

Datasheet
RASPBERRY PI, COMPUTE MODULE 3

Manufacturer: Raspberry Pi
This product is classified as Large/Heavy, additional shipping charges may apply. A customer service representative may contact you after ordering to confirm exact shipping charges



Price (USD)

1: USD 123.0142 ea
Line Total: USD 123.01

0 - Global Stock
MOQ: 1  Multiples: 1
Pack Size: 1
Availability Price Quantity
0 - WHS 1


Ships to you between Mon. 20 May to Fri. 24 May

MOQ : 1
Multiples : 1

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RPI-COMPUTE3-KIT
Raspberry Pi

1 : USD 138.2403

     
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COMPUTE MODULE OPERATING INSTRUCTIONS POWERING THE MODULE The Compute Module has 6 separate supplies that must be present at all times (i.e. they must all be powered, you cannot leave any of them unpowered even if a specific interface or GPIO bank is unused). 1. VBAT is used to power the BCM2835 processor core (it feeds the SMPS that generates the chip core voltage) 2. 3V3 powers various BCM2835 PHYs, IO and the eMMC Flash 3. 1V8 powers various BCM2835 PHYs, IO and SDRAM 4. VDAC powers the composite (TV out) DAC 5. GPIO0-27 VREF powers the GPIO 0-27 IO bank 6. GPIO28-45 VREF powers the GPIO 28-45 IO bank SUPPLY VOLTAGE / VOLTAGE RANGE TOLERANCE VBAT 2.3-5V 1 +/- 5% 3V3 3.3V +/- 5% 1V8 1.8V +/- 5% VDAC 2.5-2.8V (can connect to 3V3 if unused) +/- 5% GPIO0-27 VREF 1.8-3.3V +/- 5% GPIO28-45 VREF 1.8-3.3V +/- 5% 1 **NOTE that the voltage range for best SMPS efficiency is ~3.3-4.3V POWER SEQUENCING Supplies must be synchronised to come up at exactly the same time, or staggered such that the highest voltage comes up first, then the next highest etc. This is to avoid forward biasing internal (on-chip) diodes between supplies and causing latch-up. POWER REQUIREMENTS Exact power requirements will be heavily dependent upon the individual use case. If an on-chip subsystem is unused it is usually in a low power state or completely turned off. For instance if your application does not use 3D graphics then a large part of the core digital logic will never turn on and need power. Similarly for camera / display interfaces, HDMI, USB interfaces, video encode/decode etc. Powerchain design is critical for stable and reliable operation of the Compute Module. We strongly recommend that designers spend time measuring and verifying power requirements for their particular use case and application, as well as paying careful attention to power supply sequencing and maximum supply voltage tolerance. The following table gives a rough guide as to minimum supply requirements. **However, the user is responsible for verifying that their power- chain is designed sufficient for their application. In some more pathological use cases these minimum requirements may well be too low ** SUPPLY MINIMUM REQUIREMENT (MA OR MW) VBAT 2000mW 1 3V3 250mA 1V8 250mA VDAC 25mA GPIO0-27 VREF See note 2 GPIO28-45 VREF See note 2 1 **NOTE VBAT is heavily dependent upon the application. E.g. with video encode, 3D and camera all running the power requirements can be substantial. 2 **NOTE that each GPIO bank will only need a few mW if unused, however when in use the requirements will vary depending on number of IOs in use, and the load on each. The designer is responsible for calculating or measuring this themselves based on their particular use case.MODULE BOOTING / FLASHING THE EMMC COMPUTE MODULE INTERFACES The 4GByte eMMC Flash device on the Compute module is directly connected to the primary BCM28235 SD/eMMC interface. GPIOs These connections are not accessible on the module pins. **NOTE that the GPIO46 1V8 and GPIO47 1V8 pins are 1.8V IO only and are reserved for special functions (HDMI hot plug detect and boot control respectively). Please don t use these pins for any other purpose (as the software for the Compute Module will always expect When initially powered on (or after the RUN pin has been held low and then released) the BCM2835 will try and access the eMMC these pins to have these special functions). If unused please leave unconnected. device and look for a file called bootcode.bin on the primary partition (which must be F AT) to start booting the system. If it cannot access the eMMC device or the boot code cannot be found, it will fall back to waiting for boot code to be written to it over USB The remaining GPIOs are available for general use and are split into 2 banks. GPIO0 to GPIO27 are bank 0 and GPIO28-45 make up (i.e. its USB port is in slave mode waiting to accept boot code from a suitable host). bank 1. GPIO0-27 VREF is the power supply for bank 0 and GPIO28-45 VREF is the power supply for bank 1. These supplies can be in the range 1.8V-3.3V. These supplies are not optional each bank must be powered (even when none of the GPIOs for that bank are used). A USB boot tool is available (

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