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LM3404HV: Bootstrap capacitor

November 21, 2019, 11:56 pm
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Part Number: LM3404HV

Hi,

We have worked with the now fairly old LM3404HV part for many years. Works fine. We also have dimmed using 20kHz PWM, also works fine.

Recently we have added one dimming control that uses much lower PWM frequency, around 500Hz, and then we see one borderline issue on some parts pulled from a production batch:

- At certain duty cycles on the DIM-pin (10-15%), the LM3404 might delay the start of switching for quite a "long" time (from Rising edge of the DIM pin), and this is random from cycle to cycle, leading to a very visible flickering and nervous light output. Some parts does not exhibit this beahviour. I have measured a lot on this, and it is clearly seen that when DIM goes high, the parts does not start switching until x us has elapsed, and x is varying randomly. 

Everything looks perfect, DIM signal is super-clean and nice, Vcc on pin 7 is also perfect. I tested changing the 10nF bootstrap capacitor to 100nF and then all problems goes away. I have verified this on 4 units that all showed the issue.

This is a smaller production batch, so it's not super-critical, I just wanted to raise the question if 100nF as bootstrap is OK to use or if that might lead to other concerns? Can 10nF be too little if using lower PWM frequencies on the DIM-pin?

Thanks,

Martin

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TPS543B20: Output power pins voltage tolerance

November 22, 2019, 12:11 am
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Part Number: TPS543B20

Hi Team,

Our customer needs to perform IR Drop power integrity analysis for the power rail. From the device output power pins they are looking to take out 0.85V, but in the actual PCB board there will be some fluctuations.

May we know the voltage limit tolerance from the output power pins of TPS543B20?

Thanks in advance for your help.

Kind Regards,

Jejomar

BQ34Z100-G1: TRC / RC / FCC in IT algorithm

November 22, 2019, 12:16 am
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Part Number: BQ34Z100-G1

Hi,

I am using a BQ34z100-g1 with an 8s2p LiFePO4 batteries. The nominal capacity of the battery is 3200mAh.

I have obtained the golden image of the battery and load it in the bq34z100-g1 and now I am doing cycles to the system simulating the real application. 

The FCC after the learning cycle was 3195mAh. This FCC has risen to 3207mAh after 35 cycles of battery. Now, 10 days has passed since bq34z100-g1 did its last Charge Termination and I am seeing a strange behaviour of the device. 

The SoC is 100%, FCC = 3207mAh and RC = 3207mAh. However True RC = 3550mAh but the conditions for a charge Terminations are not being fulfilled. 

As my system global consumption is lower than 343mAh(True RC(3550) - FCC(3207)) these days the SoC is alway freeze at 100%, although it has consumptions of 200mA during periods of time of more than 1/2h and also charge the battery during same time periods.  

My questions related to this bq34z100-g1 performance are:

- Is there any way to modify the behaviour of the IT algorithm in this case?

- Is there anything we can do to limit the increase of True RC above FCC?

- Can you explain please the differences between RC and True RC and between FCC and True FCC nad how are they use in IT algorithm? I do not find them in any document.

Thank you very much in advance,

Best regards,

TPS7A37: Instability issues - part 2

November 22, 2019, 12:35 am
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Part Number: TPS7A37

Hi everyone,

Unfortunately, the issues are still here.

Part one of this mess is here

Even worse, i have improved the pcb a bit (at least i think i did) and tried the fixed version of the LDO TPS7A3725 (2.5V) without any luck.

At first everything worked for a few minutes and then trembling and random behaviour started.

I am at a dead end. Designing for months and i got stuck with an LDO instability issue. The last thing i would ever think...

Here is the 6-layer pcb around the TPS7A37XX with the top layer solder paste areas visible

This ^ is the bottom layer. The ground plane is clearly visible.

This ^ is the inner layer 4. Just like bottom layer, the ground plane is the cyan colored area.

This ^ is the inner layer 3. There is no ground plane here. The blue area that you see (not close the edges) is the +5.3V rail that is supplying the TPS7A37XX.

This ^ is the inner layer 2. Again, ground plane is dominant.

This ^ is the inner layer 1. Ground plane is under the feedback loop traces. The yellow trace going downwards is taking the output of the TPS to a pin header.

This ^ is the top layer.

This ^ is the fixed version of the TPS soldered with the FB pin being decoupled by a MLCC 10nF as required by the DS in order to further reduce output noise.

What i find realy strange is that the 2x LP5912, 1x LP5907 and TPS63710 inverter smps are not facing any issues.

Could this be an inherent instability issue? I have already spent $200 for the first prototype pcbs and another $200 for the last set.

What about the critical selection of the MLCC caps?

DS says at p 8.1.1: "In applicationswheremultiplelow ESRcapacitorsare in parallel,ringingmayoccurwhenCOUT× ESR< 50 nΩ-F.". Can you pls explain that?

I have selected this cap for both input and output: click here

Have you got any suggestions? Should i be looking for a replacement?

Regards

Manos Tsachalidis

CSD87588N: Unencrypted spice model CSD87588N

November 22, 2019, 12:39 am
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Part Number: CSD87588N

Hi Sir,

could you please provide an Unencrypted spice model of CSD87588N to me?

I will use it on other simulation system.

my email is sfgvip@126.com.

Regards,

Frank

LMZM33604: FPWM operation

November 22, 2019, 12:44 am
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Part Number: LMZM33604

Hello, team members.

Is there any problem connecting Pin19(SYNC/MODE) and Pin9(VCC) of LMZM33604 for FPWM mode operation?

regards,

UCD3138064: a question about the register of DATA_READY in I2C module.

November 22, 2019, 12:58 am
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Part Number: UCD3138064

During debugging IIC communication, it is found that after receiving the data, Register DATA_READY is not set, and Register RD_BYTE_COUNT is also always 0.I want to know what is the condition that  DATA_READY register was set 1.

I want to process the data according to the location of the DATA_READY flag. What should I do?

Thank you very much!

BQ34Z100: BQ34Z100 programing issue

November 22, 2019, 1:55 am
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Part Number: BQ34Z100

Hi Expert,

My customer is using BQ34Z100 in their products. They want to know whether it is recoverable once it is interrupted when loading program to flash. They find that once it is interrupted when loading program to flash, it can't be loaded again. The only way is to replace the IC. Do we have some solution to address issue? 

Regards,

Yangbp

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TPS929120-Q1: ADC range

November 22, 2019, 2:05 am
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Part Number: TPS929120-Q1

Hi Champs,

The datasheet states that the analog value of the ADC is calculate as follows:

Analog Value = a+k * ADC_OUT;   ADC_OUT being 0 to 255.

when we do the math to measure the supply voltage (channel 2) we end up with a maximum measurable voltage of 20,5693 V:

0.0673 V + 0.0804 V/LSB *255 = 20,5693 V.

which is way below the possible range for the supply (40V).

Are we missing anything?

TLV62585: P2P IC but force PWM mode

November 22, 2019, 2:37 am
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Part Number: TLV62585

Hi Team,

   Do we have force PWM mode P2P IC for TLV62585? If not, which similar IC with force PWM mode could be to recommend to replace TLV62585? 

Best regards,

Albert Lee. 

UC1825A: Compatibility issue with UC2825DW and UC2825AMDWEP

November 22, 2019, 1:59 am
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Part Number: UC1825A

Designed a DC-DC converter by using UC2825DW Controller. With this controller met all the electrical parmeters and tested 3 boards. After replacing UC2825DW with UC2825AMDWEP controller, Converter is working in pulse skiping mode.wheather the above two IC are 1:1 compatible.

TPS61322: TPS61322 boost converter For Li-Socl2

November 22, 2019, 2:41 am
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Part Number: TPS61322

Hi,

I am trying to find suitable boost converter for my application. I have a battery Li-Socl2 (3.6V @ max continuous current 25mA) connected directly to my module (BLE antenna + UWB tranceiver) as a BLE tag device which has a requirement of voltage minimum 2.8V to 3.6V max. The typical output current for this module is shown below. 

I have TPS613221AEVM connected to the module on my board to boost the power supply when it is below 2.8V, apparently the supply is not enough to during the power up of the module. Do you have any suggestion which boost converter is suitable for my application? 

Thank you.

TPS3808: Fixed versions Vsense Threshold for Lower nominalVDD

November 22, 2019, 2:45 am
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Part Number: TPS3808

I am planning to use TPS3808G33 fixed version with a threshold of 3.07.

Nominal supply for this component is 3.3V but in my case I will supply it with 1.8V (which seems acceptable from datasheet >1.7V) but will sense a 3.3V line still. RST output will be pulled up to 1.8V.

However I am not sure if the component can still keep the factory programmed threshold (3.07V) if I supply it with a lower VDD (1.8V)

Thanks Onur.

BQ40Z50EVM-561: BQ40Z50-R2

November 22, 2019, 2:50 am
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Part Number: BQ40Z50EVM-561

Hello,

Client has some issues with EVM and implementation on their test board.
On EVM BQ40Z50-R2 works fine, but when testing on clients pcb BatteryStatus() command returns TerminateChargeAlarm and TerminateDischargeAlarm.
2S batteries(18650 3000mah 3.6v.)
Here their schematics.
What might be an issue?

BQ40Z80: how to use BQ40Z80 with external FET drivers

November 22, 2019, 2:54 am
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Part Number: BQ40Z80

hi,

we are using the BQ40z80 in a new battery pack.

Due to the size, we plan to drive 4x BSC016N06NS in parallel and, due to the weak drivers of BQ40Z80, we plan to add/use external driver.

May you point me to an application note or a schematic how to do that (with discrete or intergrated IC)?

thanks a lot in advance

KR

Vincenzo

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TPS563200: Schematic validation & expected output

November 22, 2019, 3:08 am
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Part Number: TPS563200

Hi,

I'm working with TPS563200 design & I need support on validating my schematics. For Vin I'm having input of 12V/1A max inbound whereas I'm expecting Vout of 3.3v/0.8A. I did validation against Webench & R1/R2 confirmed carrying similar values of 33.2Kohm/10Kohm respectively. However on my actual board sometimes I'm getting 3V or even 5V output readings aside from expected 3.3V Vout. Hence i'll need support on validating my schematic.

 

I know that 100nF cap were required to connect VBST to SW, i believe it should be fine for my schematic above?

Regards,
Leo

LM5069: Low cost alternative

November 22, 2019, 5:41 am
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Part Number: LM5069

Hi,

My customer need a current limiter on the supply input of a system 12VDC max 5A, and have spotted LM5069.
Would you please suggest even lower cost, or smaller alternative solutions that can do the same, so that we know that we are looking at the best solution? (If those exist)

Thank you in advance!

M.A.M

LM5036: what is the practical max switching frequency for 300W application

November 22, 2019, 5:46 am
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Part Number: LM5036

Hi team,

My customer would like to design a 54V to 12V converter with up to ~ 300W (20 ~ 25A output current) design using LM5036.

Our reference design PMP40500 is with 200KHz switching frequency. Is it practical to triple the switching frequency to 600 ~ 800KHz? (any issues with the bandwidth on the EA and current sense/limit)?

customer also asked if they could use lower voltage gate drive (6V). (with internal 7.8V Vcc, this is not possible?)

If LM5036 is not the best part for their requirement, will UCC28251 or any other part a better fit?

Regards,

SK Loo

TPS62152: TPS62152 efficiency

November 22, 2019, 5:47 am
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Part Number: TPS62152

Hi!

We designed a home IoT alarm system and for the External warning device we are using the TPS62152 buck regulator as a power supply.
Our input voltage is 12V(8x AA battery in series).
We are trying to verify the power supply efficiency of our design and the problem is that we got really low efficiency values on light loads, please see table below.



The voltages seems to be good, the device is working perfectly, but the measured efficiency is lower than expected from datasheet.
We measured the efficiency by isolating the buck regulator from other components of the board. 
Here is a picture of loaded start(120mA) it seems to be good too.


We suspect on the measuring method and/or equipment.

Are you able to measure us a sample to verify the efficiency?

Our measuring method:

Power supply ------current probe-------DUT input----Isolated psu----DUT output-----current probe------constant load(resistor).

Thank you in advance!

Kind Regards,
Lajos 



UCC1804: UCC1804J IC damaged and pulling excessive current at start up prior to reaching UVLO start up

November 22, 2019, 6:02 am
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Part Number: UCC1804

This device has been used in our power supply for a number of years.  We have had up to 100 of these ICs fail through those years.  The fundamental problem is generally the converter will not start.  Upon investigation we typically find the UCC1804J is pulling excessive current on the Vcc pin.  The latest failure I was able to apply 10 Volts to just the IC from Vcc to GND pins of the device and verified it is pulling 10m Amps.  As it should be less than 0.1m Amps I must assume the device is damaged.

The IC is being used as part of a bootstrapped 12 Volt power supply that runs from a 28 Volt input.  We start the chip from a current limited transistor off the 28 Volt input.  There is a 1000 Ohm resistor in series with this transistor.  Within about 10mSec after power is applied the chip is then run from an isolated winding from a transformer that is regulated to 11 Volts by the IC.  The transistor is shut off and the supply will continue to run from the 11 Volt winding.  There is a 15uF electrolytic and 0.47uF ceramic capacitor directly across the Vcc and GND pin as close as possible to the IC.

I would like to know what could be damaging the IC.  Another detail is even the damaged IC will start and run normally if given enough voltage to start.  So it appears the only thing damaged on the IC is possibly come internal zener clamp from the Vcc to GND pin.

I would like to know how this could be getting damaged?  It appears all the best design practices have been followed here.  My only concern was that our current limiting resistor at start up will allow about 15mA of current to the chip. But for the short duration it is applied it seems to be well within the data sheet limits for the IC.  I am searching for other answers here.  Or confirmation of what could be causing this?

Below is a scope plot of the Vcc pin at start up.

Below is a excerpt from the schematic it is being used in

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