Difference between revisions of "Novena PVT2 ECO List"

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(ECO6: Upgrade accelerometer)
(ECO22: swap audio control option)
 
(38 intermediate revisions by the same user not shown)
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|-
 
|-
 
| R17D 20k, 1% || removed || INT output is now push/pull
 
| R17D 20k, 1% || removed || INT output is now push/pull
 +
|}
 +
 +
==ECO7: Upgrade FAN53540UCX ==
 +
FAN53540UCX marked as not recommended for new designs.
 +
 +
FAN53541UCX is a pin-compatible upgrade. Difference between the two is that the enable and mode input no longer need 1k ballast resistors. However, leaving them in place causes no harm and allows for downgrade compatibility in case parts are in short supply.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| U13N FAN533540UCX || U13N FAN53541UCX ||
 +
|}
 +
 +
==ECO8: Update i.MX6 P/N==
 +
Previously schematic listed the 1.0GHz P/N as the default. Updated to reflect the plan to only produce with the 1.2GHz P/N.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| U100 iMX6Q - PCIMX6Q5EVT10AD || U100 iMX6Q - MCIMX6Q5EYM12AC ||
 +
|}
 +
 +
==ECO9: Confirm change of D10C==
 +
Measurements on diode leakage indicate D10C was not properly updated on BOM at last ECO. Confirm factory received ECO update.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | DVT/PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| D10C NSR0320 || D10C RB751V40,115 || Reduce leakage from 1mA max to 0.0005mA max; peak If = 120mA, but max current on stby line is ~1mA
 +
|}
 +
 +
==ECO10: U12N is EOL==
 +
U12N, the lower synchronous switch of the 5V converter, has gone EOL. Replace with recommended substitute by On Semi.
 +
 +
The recommended substitute NTMFS4C35NT1G is pin-compatible. It has a slightly lower power rating due to a higher Tj to the case, but the RdsON is the same. The converter is actually highly over-spec'd for the measured loads, so this substitution is not a problem. In fact, the substitute may improve efficiency slightly as the gate charge and other parasitics of the new device are lower.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| U12N NTMFS4935NT1G || U12N NTMFS4C35NT1G ||
 +
|}
 +
 +
==ECO11: Remove AW-NU137 option==
 +
AW-NU137 is EOL and also, we're just never going to use it. It was originally included as an option for wifi in devices that needed to be cheap and where it was acceptable to not have PCIe and also binary blobs are acceptable. There has been zero demand for this configuration option.
 +
 +
Also, swap USB_PCI with USB_VID ports on upstream hub for improved routability. This should have no impact on the software.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| P12U  2mm 5-pin male header || remove ||
 +
|-
 +
| D13U  RSA5M || remove ||
 +
|-
 +
| U12U  RT9706 || remove ||
 +
|-
 +
| C26U  1.0uF, 25V, 20% X5R || remove ||
 +
|-
 +
| R23U  10k, 1% || remove ||
 +
|-
 +
| R26U  0 ohm || remove || replace with permanent traces
 +
|-
 +
| R27U  0 ohm || remove || replace with permanent traces
 +
|}
 +
 +
==ECO12: Fix CDP issue on USB port EXT2==
 +
USB port EXT2 has 1.5A-capable limits but does not configure itself as CDP. Fix this by swapping Port4 (EXT2 on PVT1) for Port 1 (USB_VID on PVT1). Amber1/Green4 NC (as currently configured) sets only Downstream Port 1 as CDP-capable.
 +
 +
This is purely a wire fix, no BOM-visible ECO required.
 +
 +
==ECO13: Improve inductor profile==
 +
The ferrite MSS1260 used as the primary power inductor is a bit too tall and large. Use a composite molded core XAL7030 which is a bit more compact.
 +
 +
Pros/cons: XAL7030 has a better rated Irms than MSS1260, but seems mostly due to better heat conduction out of the package, not due to better electrical performance. The DCR of XAL7030 is 19.5mOhm, MSS1260 is 12.60mOhm, so conduction losses are greater. Isat of the XAL7030 is better due to soft-saturating characteristic of the composite core. Overall, I expect there to be very little change in practical circuit performance, perhaps a 1-2% max loss in battery life with this change under Ipeak conditions.
 +
 +
The MSS1260 isn't removed from the PCB layout. Instead, XAL7030 shall be fitted inside the footprint of the MSS1260. This allows for going back to the original inductor in case there is a design issue with the XAL7030.
 +
 +
This change is coordinated onto Senoko BOM as well.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| L10N  3.3uH, MSS1260-332NL || L10N 3.3uH, MSS1260-332NL (DNP) || remove from BOM but leave footprint
 +
|-
 +
| add || L10NB 3.3uH, XAL7030-332MEC || add inductor within old footprint
 +
|}
 +
 +
==ECO14: Rework front panel connector==
 +
For integration with laptop, a unified front panel connector is introduced.
 +
 +
P16D (8-pin FH19SC from Hirose) is removed. All signals from this connector are re-routed to a new P16D, now an HRS FH34SRJ-30S-0.5SH.
 +
 +
This 30-pin header now contains the following features:
 +
 +
* both USB ports going to the front panel
 +
* 6x GPIO routed from the FPGA (so as to emulate at least SPI (with WP/HOLD), 3x I2C, or just function as 6x GPIO)
 +
* TS_ANA analog input
 +
* power routing for prototyping convenience
 +
* some CPU GPIO to provide for blinkenlight on the front panel
 +
* the power switch from Senoko (to turn the system on and off from the front panel)
 +
* a front panel general purpose switch (to allow for recovery boot and BT keyboard association)
 +
* speakers (original headers still retained) to allow for cleaner in-case routing of wires
 +
 +
The major downside of this revision is the internal USB headers can no longer be tapped using a simple DIY 8-pin ribbon cable. However, the 8-pin ribbon cable was found to have inadequate performance for stable USB2.0 operation anyways.
 +
 +
U14F was sacrificed. It's a SPI ROM that hangs off the FPGA, which has never been used in any design. The intention of U14F was to store private keys or other local NV storage for the FPGA that was off hard-drive. Instead, the SPI pins are run to the 30-pin header so users can have more flexibility on what SPI device to attach (you can still attach a device similar to U14F, but now it can be anything else as well).
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| P16D HRS FH19SC-8S-0.5SH(05) || P16D HRS FH34SRJ-30S-0.5SH(99) || upgrade header to more pins
 +
|-
 +
| P14U Male right angle 4x2 2.54mm header || removed  || replaced with 30-pin header
 +
|-
 +
| U14F MX25L512EMI-10G || removed || route signals to 30-pin header instead
 +
|-
 +
| P_LSPI_WP  || removed
 +
|-
 +
| added || R39N 330, 1% || ballast on CHG_PWRSWITCH
 +
|-
 +
| C75F 0.1uF, 6.3V, X5R || removed ||
 +
|}
 +
 +
==ECO15: DNP digital mic header==
 +
Can't use header at the same time as the LCD adapter board, so the part is redundant.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| P12A JST BM04B-SRS-TB || removed ||
 +
|-
 +
| P13A MP34DT01 (DNP) || removed ||
 +
|-
 +
| C33A 0.1uF, 6.3V, X5R || removed ||
 +
|-
 +
| R31A 100, 1% (DNP) || removed ||
 +
|-
 +
| R34A 100, 1% (DNP) || removed ||
 +
|}
 +
 +
==ECO16: DNP backside switch==
 +
Backside user switch is not used in this configuration. Remove.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| SW11S TL3342F160QG/TR || SW11S TL3342F160QG/TR (DNP)
 +
|}
 +
 +
==ECO17: USB hub resets==
 +
Sometimes the USB hubs don't reset nicely across soft-power cycles. Wire up hard resets to the CPU so during power on the hubs can be properly reset.
 +
 +
DI0_PIN4 / ball P25 is USB_HUB1_RST  (most upstream hub)
 +
 +
DISP0_DAT6 / ball R23 is USB_HUB2_RST  (most downstream hub)
 +
 +
Further validation indicates resetting the hubs has dubious value, so wire these using DNP 0 ohm resistors so this is a stuff option, but not actually implemented in the run
 +
 +
Reset lines also have pull-ups added to them, so in case they float they go to a sane value.
 +
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| added || R23U 0 ohm ||
 +
|-
 +
| added || R27U 0 ohm (DNP) || footprint only, not populated
 +
|-
 +
| added || R26U 1k, 1% ||
 +
|-
 +
| added || R44U 0 ohm ||
 +
|-
 +
| added || R46U 0 ohm (DNP) || footprint only, not populated
 +
|-
 +
| added || R45U 1k, 1% ||
 +
|}
 +
 +
==ECO18: Power LED turn-off==
 +
Power LED cannot be turned off currently as it monitors the 2.5V line, and during suspend this stays on.
 +
 +
Rewire LED to go to P1.8V_VGEN4, which is currently an unused LDO output from the regulator. Change color to red so it still turns on (dimly) at 1.8V. LED can then be powered off finally by configuring the LDO once the kernel is up and running.
 +
 +
The power LED is important because the LCD screen doesn't turn on for several seconds after hitting the power button, and also it's impossible to distinguish between a messed up bootloader and a power failure without a power LED at boot.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| D10P APT1608SGC green || D10P APT1608EC red ||
 +
|-
 +
| R10P 240, 1% || R10P 49.9, 1% || adjust current limit down
 +
|}
 +
 +
==ECO19: Use external RTC==
 +
 +
RTC drains a lot higher current than 4uA according to spec sheet.
 +
 +
Introduce an alternate RTC to provide time. Eliminate supercap for LICELL, as we're not using that line anymore.
 +
 +
We use the same RTC as on the Hummingboard.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| C21P 0.06F 3.3V coin supercap || removed ||
 +
|-
 +
| added || R20P 1k, 1% (DNP) || footprint added but no BOM change
 +
|-
 +
| added || R21P 1k, 1% ||
 +
|-
 +
| added || Y10P Abracon ABS06-32.768KHZ-T ||
 +
|-
 +
| added || U10P PCF8523T/1 ||
 +
|-
 +
| added || C61P 4.7uF, 10V, X5R, 10% ||
 +
|-
 +
| added || BT11P BR1225A/FAN ||
 +
|}
 +
 +
==ECO20: Eliminate redundant CM chokes==
 +
L15U and L12U are ineffective and cause yield issues. Remove.
 +
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| L15U Bournes SRF2012-900Y or equiv. || removed
 +
|-
 +
| L12U Bournes SRF2012-900Y or equiv. || removed
 +
|}
 +
 +
==ECO21: Add IRQ line to Senoko==
 +
This helps simplify getting the host's attention because it's too hard to write a console driver in kernel space that listens to the UART interface for alerts.
 +
 +
GPT_CLKIN is repurposed to run to the Senoko header. This means you can't use the high-resolution timing feature with UART3 at the same time as the battery board, which is probably an obscure enough combination that maybe only one person might complain about that.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| added || R40N 330, 1%
 +
|}
 +
 +
=Post bring-up ECO=
 +
==ECO22: swap audio control option==
 +
KEY_ROW1 is meant for the front panel button. Swap resistors to gang audio amp control again.
 +
 +
Issued to factory as ECO-0001 against PVT2 rev A on September 30 2014.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| R28A 0 ohm || R28A ohm (DNP)
 +
|-
 +
| R30A 0 ohm (DNP) || R30A ohm
 +
|}
 +
 +
==ECO23: improve regulator stability on cold power-on==
 +
 +
ECO13 changes the inductor. This has introduced some instability on cold power-on. Oscilloscope waveforms show a lot of noise on the 5V line after jamming the power cable in, and the 5V regulator subsequently shuts itself off.
 +
 +
Adding another 22uF cap on the 5V output filtering (C23N DNP->populated) eliminates this noise and the system seems to perform stably across multiple cold power-on events.
 +
 +
Issued to factory as ECO-0002 against PVT2 rev A on October 15 2014.
 +
 +
{| class="wikitable sortable"
 +
|-
 +
! scope="col" | PVT1
 +
! scope="col" | PVT2
 +
! scope="col" | Notes
 +
|-
 +
| C23N 22uF, 10V, X5R 20% (DNP) || C23N 22uF, 10V, X5R 20%
 
|}
 
|}

Latest revision as of 19:18, 14 October 2014

This is a list of all the changes applied to the board from PVT1 to PVT2 (Crowd Supply initial campaign) release. If it's not on this list, it didn't happen.

Each change has the format of issue summary/resolution, and specific change

ECO1: Improve HPD margin

HPD on i.MX6 has a low impedance (10k). This causes marginal HPD performance on some boards. Make R29L stronger.

PVT1 PVT2 Notes
R29L 10k, 1% / REC1005N R29L 1k, 1% HDMI HPD perforance

ECO2: EOL issue U11D

STMPE610 is EOL. Switch to STMPE811, pin-compatible and not EOL.

PVT1 PVT2 Notes
U11D STMPE610 U11D STMPE811QTR resolve EOL issue

ECO3: EOL issue audio amplifier

NS4890 is EOL. Replace with compatible NS4890B in two places.

PVT1 PVT2 Notes
U10A, U12A NS4890 U10A, U12A NS4890B resolve EOL issue

ECO4: Improve kernel panic logging

U10S is too small for good kernel panic logging. Replace with larger capacity I2C EEPROM to store several crashes worth of logs.

PVT1 PVT2 Notes
U10S 24LC32A-I/ST U10S FT24C512AUTR-T improve KP logging

ECO5: 47uF 1206 capacitor is wrong AGAIN

The wrong package type (1210) is being ordered for this 1206 part. This was supposed to be corrected on PVT1. Please double-confirm that instruction is understood that this part cannot be substituted with a 1210 footprint.

DVT and PVT1 PVT2 Notes
C43M 47uF, 6.3V, 20% X5R 47uF, 6.3V, 20% X5R (CL31A476MQHNNNE) double-confirm this change is understood!
C44M 47uF, 6.3V, 20% X5R 47uF, 6.3V, 20% X5R (CL31A476MQHNNNE)
C45M 47uF, 6.3V, 20% X5R 47uF, 6.3V, 20% X5R (CL31A476MQHNNNE)
C18M 47uF, 6.3V, 20% X5R 47uF, 6.3V, 20% X5R (CL31A476MQHNNNE)
C52C 47uF, 6.3V, 20% X5R 47uF, 6.3V, 20% X5R (CL31A476MQHNNNE)

ECO6: Upgrade accelerometer

Old accelerometer is probably approaching EOL.

MMA8452Q is stocked at 3mm+ levels in the factory and has existing Linux drivers in main-line. A little more expensive than MMA8653FC, but twenty cents is not going to kill this product. So, we go with MMA8452Q.

PVT1 PVT2 Notes
U10D MMA7455L U10D MMA8452Q improve accelerometer, avoid EOL
R17D 20k, 1% removed INT output is now push/pull

ECO7: Upgrade FAN53540UCX

FAN53540UCX marked as not recommended for new designs.

FAN53541UCX is a pin-compatible upgrade. Difference between the two is that the enable and mode input no longer need 1k ballast resistors. However, leaving them in place causes no harm and allows for downgrade compatibility in case parts are in short supply.

PVT1 PVT2 Notes
U13N FAN533540UCX U13N FAN53541UCX

ECO8: Update i.MX6 P/N

Previously schematic listed the 1.0GHz P/N as the default. Updated to reflect the plan to only produce with the 1.2GHz P/N.

PVT1 PVT2 Notes
U100 iMX6Q - PCIMX6Q5EVT10AD U100 iMX6Q - MCIMX6Q5EYM12AC

ECO9: Confirm change of D10C

Measurements on diode leakage indicate D10C was not properly updated on BOM at last ECO. Confirm factory received ECO update.

DVT/PVT1 PVT2 Notes
D10C NSR0320 D10C RB751V40,115 Reduce leakage from 1mA max to 0.0005mA max; peak If = 120mA, but max current on stby line is ~1mA

ECO10: U12N is EOL

U12N, the lower synchronous switch of the 5V converter, has gone EOL. Replace with recommended substitute by On Semi.

The recommended substitute NTMFS4C35NT1G is pin-compatible. It has a slightly lower power rating due to a higher Tj to the case, but the RdsON is the same. The converter is actually highly over-spec'd for the measured loads, so this substitution is not a problem. In fact, the substitute may improve efficiency slightly as the gate charge and other parasitics of the new device are lower.

PVT1 PVT2 Notes
U12N NTMFS4935NT1G U12N NTMFS4C35NT1G

ECO11: Remove AW-NU137 option

AW-NU137 is EOL and also, we're just never going to use it. It was originally included as an option for wifi in devices that needed to be cheap and where it was acceptable to not have PCIe and also binary blobs are acceptable. There has been zero demand for this configuration option.

Also, swap USB_PCI with USB_VID ports on upstream hub for improved routability. This should have no impact on the software.

PVT1 PVT2 Notes
P12U 2mm 5-pin male header remove
D13U RSA5M remove
U12U RT9706 remove
C26U 1.0uF, 25V, 20% X5R remove
R23U 10k, 1% remove
R26U 0 ohm remove replace with permanent traces
R27U 0 ohm remove replace with permanent traces

ECO12: Fix CDP issue on USB port EXT2

USB port EXT2 has 1.5A-capable limits but does not configure itself as CDP. Fix this by swapping Port4 (EXT2 on PVT1) for Port 1 (USB_VID on PVT1). Amber1/Green4 NC (as currently configured) sets only Downstream Port 1 as CDP-capable.

This is purely a wire fix, no BOM-visible ECO required.

ECO13: Improve inductor profile

The ferrite MSS1260 used as the primary power inductor is a bit too tall and large. Use a composite molded core XAL7030 which is a bit more compact.

Pros/cons: XAL7030 has a better rated Irms than MSS1260, but seems mostly due to better heat conduction out of the package, not due to better electrical performance. The DCR of XAL7030 is 19.5mOhm, MSS1260 is 12.60mOhm, so conduction losses are greater. Isat of the XAL7030 is better due to soft-saturating characteristic of the composite core. Overall, I expect there to be very little change in practical circuit performance, perhaps a 1-2% max loss in battery life with this change under Ipeak conditions.

The MSS1260 isn't removed from the PCB layout. Instead, XAL7030 shall be fitted inside the footprint of the MSS1260. This allows for going back to the original inductor in case there is a design issue with the XAL7030.

This change is coordinated onto Senoko BOM as well.

PVT1 PVT2 Notes
L10N 3.3uH, MSS1260-332NL L10N 3.3uH, MSS1260-332NL (DNP) remove from BOM but leave footprint
add L10NB 3.3uH, XAL7030-332MEC add inductor within old footprint

ECO14: Rework front panel connector

For integration with laptop, a unified front panel connector is introduced.

P16D (8-pin FH19SC from Hirose) is removed. All signals from this connector are re-routed to a new P16D, now an HRS FH34SRJ-30S-0.5SH.

This 30-pin header now contains the following features:

  • both USB ports going to the front panel
  • 6x GPIO routed from the FPGA (so as to emulate at least SPI (with WP/HOLD), 3x I2C, or just function as 6x GPIO)
  • TS_ANA analog input
  • power routing for prototyping convenience
  • some CPU GPIO to provide for blinkenlight on the front panel
  • the power switch from Senoko (to turn the system on and off from the front panel)
  • a front panel general purpose switch (to allow for recovery boot and BT keyboard association)
  • speakers (original headers still retained) to allow for cleaner in-case routing of wires

The major downside of this revision is the internal USB headers can no longer be tapped using a simple DIY 8-pin ribbon cable. However, the 8-pin ribbon cable was found to have inadequate performance for stable USB2.0 operation anyways.

U14F was sacrificed. It's a SPI ROM that hangs off the FPGA, which has never been used in any design. The intention of U14F was to store private keys or other local NV storage for the FPGA that was off hard-drive. Instead, the SPI pins are run to the 30-pin header so users can have more flexibility on what SPI device to attach (you can still attach a device similar to U14F, but now it can be anything else as well).

PVT1 PVT2 Notes
P16D HRS FH19SC-8S-0.5SH(05) P16D HRS FH34SRJ-30S-0.5SH(99) upgrade header to more pins
P14U Male right angle 4x2 2.54mm header removed replaced with 30-pin header
U14F MX25L512EMI-10G removed route signals to 30-pin header instead
P_LSPI_WP removed
added R39N 330, 1% ballast on CHG_PWRSWITCH
C75F 0.1uF, 6.3V, X5R removed

ECO15: DNP digital mic header

Can't use header at the same time as the LCD adapter board, so the part is redundant.

PVT1 PVT2 Notes
P12A JST BM04B-SRS-TB removed
P13A MP34DT01 (DNP) removed
C33A 0.1uF, 6.3V, X5R removed
R31A 100, 1% (DNP) removed
R34A 100, 1% (DNP) removed

ECO16: DNP backside switch

Backside user switch is not used in this configuration. Remove.

PVT1 PVT2 Notes
SW11S TL3342F160QG/TR SW11S TL3342F160QG/TR (DNP)

ECO17: USB hub resets

Sometimes the USB hubs don't reset nicely across soft-power cycles. Wire up hard resets to the CPU so during power on the hubs can be properly reset.

DI0_PIN4 / ball P25 is USB_HUB1_RST (most upstream hub)

DISP0_DAT6 / ball R23 is USB_HUB2_RST (most downstream hub)

Further validation indicates resetting the hubs has dubious value, so wire these using DNP 0 ohm resistors so this is a stuff option, but not actually implemented in the run

Reset lines also have pull-ups added to them, so in case they float they go to a sane value.


PVT1 PVT2 Notes
added R23U 0 ohm
added R27U 0 ohm (DNP) footprint only, not populated
added R26U 1k, 1%
added R44U 0 ohm
added R46U 0 ohm (DNP) footprint only, not populated
added R45U 1k, 1%

ECO18: Power LED turn-off

Power LED cannot be turned off currently as it monitors the 2.5V line, and during suspend this stays on.

Rewire LED to go to P1.8V_VGEN4, which is currently an unused LDO output from the regulator. Change color to red so it still turns on (dimly) at 1.8V. LED can then be powered off finally by configuring the LDO once the kernel is up and running.

The power LED is important because the LCD screen doesn't turn on for several seconds after hitting the power button, and also it's impossible to distinguish between a messed up bootloader and a power failure without a power LED at boot.

PVT1 PVT2 Notes
D10P APT1608SGC green D10P APT1608EC red
R10P 240, 1% R10P 49.9, 1% adjust current limit down

ECO19: Use external RTC

RTC drains a lot higher current than 4uA according to spec sheet.

Introduce an alternate RTC to provide time. Eliminate supercap for LICELL, as we're not using that line anymore.

We use the same RTC as on the Hummingboard.

PVT1 PVT2 Notes
C21P 0.06F 3.3V coin supercap removed
added R20P 1k, 1% (DNP) footprint added but no BOM change
added R21P 1k, 1%
added Y10P Abracon ABS06-32.768KHZ-T
added U10P PCF8523T/1
added C61P 4.7uF, 10V, X5R, 10%
added BT11P BR1225A/FAN

ECO20: Eliminate redundant CM chokes

L15U and L12U are ineffective and cause yield issues. Remove.


PVT1 PVT2 Notes
L15U Bournes SRF2012-900Y or equiv. removed
L12U Bournes SRF2012-900Y or equiv. removed

ECO21: Add IRQ line to Senoko

This helps simplify getting the host's attention because it's too hard to write a console driver in kernel space that listens to the UART interface for alerts.

GPT_CLKIN is repurposed to run to the Senoko header. This means you can't use the high-resolution timing feature with UART3 at the same time as the battery board, which is probably an obscure enough combination that maybe only one person might complain about that.

PVT1 PVT2 Notes
added R40N 330, 1%

Post bring-up ECO

ECO22: swap audio control option

KEY_ROW1 is meant for the front panel button. Swap resistors to gang audio amp control again.

Issued to factory as ECO-0001 against PVT2 rev A on September 30 2014.

PVT1 PVT2 Notes
R28A 0 ohm R28A ohm (DNP)
R30A 0 ohm (DNP) R30A ohm

ECO23: improve regulator stability on cold power-on

ECO13 changes the inductor. This has introduced some instability on cold power-on. Oscilloscope waveforms show a lot of noise on the 5V line after jamming the power cable in, and the 5V regulator subsequently shuts itself off.

Adding another 22uF cap on the 5V output filtering (C23N DNP->populated) eliminates this noise and the system seems to perform stably across multiple cold power-on events.

Issued to factory as ECO-0002 against PVT2 rev A on October 15 2014.

PVT1 PVT2 Notes
C23N 22uF, 10V, X5R 20% (DNP) C23N 22uF, 10V, X5R 20%