Texas Instruments UCC23313-Q1 User Manual Download Page 25 | Manualshive

Page: 25 / 25

Texas Instruments UCC23313-Q1 User Manual Download Page 25

IMPORTANT NOTICE AND DISCLAIMER

TI

PROVIDES

TECHNICAL

AND

RELIABILITY

DATA

(INCLUDING

DATASHEETS),

DESIGN

RESOURCES

(INCLUDING

REFERENCE

DESIGNS),

APPLICATION

OR

OTHER

DESIGN

ADVICE,

WEB

TOOLS,

SAFETY

INFORMATION,

AND

OTHER

RESOURCES

“AS

IS”

AND

WITH

ALL

FAULTS,

AND

DISCLAIMS

ALL

WARRANTIES,

EXPRESS

AND

IMPLIED,

INCLUDING

WITHOUT

LIMITATION

ANY

IMPLIED

WARRANTIES

OF

MERCHANTABILITY,

FITNESS

FOR

A

PARTICULAR

PURPOSE

OR

NON-INFRINGEMENT

OF

THIRD

PARTY

INTELLECTUAL

PROPERTY

RIGHTS.

These

resources

are

intended

for

skilled

developers

designing

with

TI

products.

You

are

solely

responsible

for

(1)

selecting

the

appropriate

TI

products

for

your

application,

(2)

designing,

validating

and

testing

your

application,

and

(3)

ensuring

your

application

meets

applicable

standards,

and

any

other

safety,

security,

or

other

requirements.

These

resources

are

subject

to

change

without

notice.

TI

grants

you

permission

to

use

these

resources

only

for

development

of

an

application

that

uses

the

TI

products

described

in

the

resource.

Other

reproduction

and

display

of

these

resources

is

prohibited.

No

license

is

granted

to

any

other

TI

intellectual

property

right

or

to

any

third

party

intellectual

property

right.

TI

disclaims

responsibility

for,

and

you

will

fully

indemnify

TI

and

its

representatives

against,

any

claims,

damages,

costs,

losses,

and

liabilities

arising

out

of

your

use

of

these

resources.

TI’s

products

are

provided

subject

to

TI’s

Terms

of

Sale

(

www.ti.com/legal/termsofsale.html

)

or

other

applicable

terms

available

either

on

or

provided

in

conjunction

with

such

TI

products.

TI’s

provision

of

these

resources

does

not

expand

or

otherwise

alter

TI’s

applicable

warranties

or

warranty

disclaimers

for

TI

products.

Mailing

Address:

Texas

Instruments,

Post

Office

Box

655303,

Dallas,

Texas

75265

Copyright

©

2020

,

Texas

Instruments

Incorporated

«
...
23
24
25

Summary of Contents for UCC23313-Q1

Page 1: ...UCC2351x Evaluation Module User s Guide Literature Number SLUUBW3B October 2018 Revised June 2020 ...

Page 2: ... high side configuration along with bipolar supplies for IGBTs and SiC Power FETs The pin to pin compatibility enables designers to use the devices in both existing and new designs for motor drives industrial power supplies solar inverters and UPSes 2 Description The UCC23513EVM 014 evaluation board utilizes a SN74LVC2G17DBVR dual Schmitt Trigger buffer to drive the signal current on the primary s...

Page 3: ...stretched SO 6 package 5 V input buffer and 14 V to 33 V VCC power supply range 1 A source 2 A sink or 4 A source 5 A source sink current capabilities 3 75 kVRMS or 5 kVRMS Isolation rated for 1 minute per UL 1577 Buffer disconnect headers for custom input drive solution PCB layout showcases high voltage isolation design between primary side and secondary side Unpopulated pads for bootstrap supply...

Page 4: ...etting Options FACTORY SETTING J1 Option A Jumper not installed IN PWM signal provided by external signal Option A Option B Jumper on J1 1 and J1 2 set Anode Buffer Input low J2 Option A Jumper on J2 1 and J2 2 set Cathode Buffer Input low Option A Option B Jumper not installed IN PWM signal provided by external signal J3 Option A Jumper on J3 1 and J3 2 pass signal to Anode Resistor Option A Opti...

Page 5: ...UCC23XXX evaluation board Within this test procedure the following naming conventions are followed Refer to the UCC23513EVM 014 schematic Section 8 for details VXX External voltage supply name V TPxx Voltage at test point TPxx For example V TP12 means the voltage at TP12 V Jxx Voltage at jack terminal Jxx Jxx yy Terminal or pin yy of jack xx DMM Digital multi meters UUT Unit under test EVM Evaluat...

Page 6: ...ment auto range 4 3 3 Function Generator Settings Table 5 Function Generator Settings MODE FREQUENCY DUTY DELAY HIGH LOW OUTPUT IMPEDANCE Channel Output Pulse DC 100 kHz 50 0 ns 5 V 0 V High Z 4 3 4 Oscilloscope Setting Table 6 Oscilloscope Settings BANDWIDTH COUPLING TERMINATION SCALE SETTINGS INVERTING Channel A 500 MHz or above DC 1 MΩ or automatic 10 or automatic OFF Channel B 500 MHz or above...

Page 7: ...an be used as a reference Make sure the output of the function generator and voltage sources are disabled before connecting Function generator channel applied on J1 1 J1 2 see in Figure 2 Power supply 1 positive node connected to input of DMM 1 with DMM 1 output connected to P1 1 or VDD and negative node applied on P1 2 or GND Power supply 2 positive node connected to input of DMM 2 with DMM 2 out...

Page 8: ... current on DMM1 and DMM2 ranges in 1 mA to 3 mA if everything is set correctly 4 Enable function generator output 5 Afterward the following occurs 1 Stable pulse output on the channel A and channel B in the oscilloscope See Figure 3 2 Scope frequency measurement is the same as function generator output 3 DMM 1 and 2 should read measurement results around 5 mA 10 mA under no load conditions For mo...

Page 9: ...off With J2 jumper shunt removed cathode and anode buffers are driven 180º out of phase which showcases the reverse blocking capability of the devices Figure 4 Input e Diode driven 5 V Ch1 is PWM Input Ch2 is Output 6 2 Output Split Supply The output can be configured to provide split supply operation through two unique methods Single supply Remove R9 and install C6 C7 1 µF R7 7 5 kohm D2 5 1 V Ze...

Page 10: ...Operation Ch1 is PWM Input Ch2 is Output 6 3 Peak Output Current Measurement Using 180nF Load The output can be configured to measure peak output current by moving the jumper from J6 to J7 This jumpers in a 180 nF load capacitor C15 which can be used to indirectly measure the output current as seen in the Understanding Peak Source and Sink Current Parameters Application Note SLLA387 Input PWM is s...

Page 11: ...tions 11 SLUUBW3B October 2018 Revised June 2020 Submit Documentation Feedback Copyright 2018 2020 Texas Instruments Incorporated UCC2351x Evaluation Module User s Guide Figure 6 Source dv dt Measurement Peak source current is calculated at 4 008 A for the UCC23513 ...

Page 12: ...nt Peak sink current is calculated at 5 011 A for the UCC23513 7 UCC23511 Test Implementation Replace the UCC23513 with the UCC23511 from the default configuration on the EVM Solder the UCC23511 sample and use Table 7 to adjust the value of R10 to observe the desired peak current out of the driver Table 7 Minimum Gate Resistor Ω Gate driver supply VCC VEE V Minimum total gate resistance Ω RGON RG_...

Page 13: ...June 2020 Submit Documentation Feedback Copyright 2018 2020 Texas Instruments Incorporated UCC2351x Evaluation Module User s Guide 8 Schematic Figure 8 shows only the schematic diagram for the UCC23513EVM 014 For evaluation of the UCC23511 use the UCC23513DWY for U1 Figure 8 UCC23513EVM 014 Schematic ...

Page 14: ...mit Documentation Feedback Copyright 2018 2020 Texas Instruments Incorporated UCC2351x Evaluation Module User s Guide 9 Layout Diagrams Figure 9 Figure 10 Figure 11 and Figure 12 show the PCB layout information for the UCC23513EVM 014 Figure 9 Top Overlay Figure 10 Top Layer ...

Page 15: ...Diagrams 15 SLUUBW3B October 2018 Revised June 2020 Submit Documentation Feedback Copyright 2018 2020 Texas Instruments Incorporated UCC2351x Evaluation Module User s Guide Figure 11 Bottom Layer Figure 12 Bottom Overlay ...

Page 16: ...7R 0805 Std Std 9 J1 J2 J3 J4 J5 J6 J7 P1 P2 Header 100mil 2x1 Gold TH Std Std 2 R1 R2 RES 100 1 0 1 W 0603 Std Std 2 R3 R4 RES 137 1 0 125 W AEC Q200 Grade 0 0805 Std Std 2 R9 RES 0 5 0 125 W 0805 Std Std 1 R10 RES 4 99 1 0 125 W 0805 Std Std 4 SH J2 SH J3 SH J4 SH J6 Shunt 100mil Flash Gold Black Std Std 16 TP1 TP2 TP3 TP4 TP5 TP6 TP7 TP8 TP9 TP10 TP11 TP12 TP13 TP15 TP20 TP21 Test Point Miniatu...

Page 17: ...ion Feedback Copyright 2018 2020 Texas Instruments Incorporated UCC2351x Evaluation Module User s Guide Table 8 UCC23513EVM 014 List of Materials continued Quantity Designator Description Part Number Manufacturer 0 TP16 TP17 TP18 TP19 TP22 TP23 TP24 TP25 Test Point Compact Black TH Std Std ...

Page 18: ...020 Submit Documentation Feedback Copyright 2018 2020 Texas Instruments Incorporated Revision History Revision History NOTE Page numbers for previous revisions may differ from page numbers in the current version Changes from A Revision September 2019 to B Revision Page ...

Page 19: ...iginal October 2018 to A Revision Page Changed From UCC23513 to UCC23513 and UCC23511 2 Deleted GaN to Si MOSFETs IGBTs and SiC 2 Changed UCC23513EVM 014 to UCC23513 1EVM 014 2 Added Which are pin to pin compatible devices 2 Changed 100V ns to 150 V ns 2 Changed from 15 V to 33 V to 14 V to 33 V 2 Added Table 1 2 Changed to 40 from 55 5 Added content to Section 7 12 Added Table 7 12 ...

Page 20: ...other than TI b the nonconformity resulted from User s design specifications or instructions for such EVMs or improper system design or c User has not paid on time Testing and other quality control techniques are used to the extent TI deems necessary TI does not test all parameters of each EVM User s claims against TI under this Section 2 are void if User fails to notify TI of any apparent defects...

Page 21: ... These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation...

Page 22: ...y for convenience and should be verified by User 1 Use EVMs in a shielded room or any other test facility as defined in the notification 173 issued by Ministry of Internal Affairs and Communications on March 28 2006 based on Sub section 1 1 of Article 6 of the Ministry s Rule for Enforcement of Radio Law of Japan 2 Use EVMs only after User obtains the license of Test Radio Station as provided in R...

Page 23: ... any interfaces electronic and or mechanical between the EVM and any human body are designed with suitable isolation and means to safely limit accessible leakage currents to minimize the risk of electrical shock hazard User assumes all responsibility and liability for any improper or unsafe handling or use of the EVM by User or its employees affiliates contractors or designees 4 4 User assumes all...

Page 24: ...OR DAMAGES ARE CLAIMED THE EXISTENCE OF MORE THAN ONE CLAIM SHALL NOT ENLARGE OR EXTEND THIS LIMIT 9 Return Policy Except as otherwise provided TI does not offer any refunds returns or exchanges Furthermore no return of EVM s will be accepted if the package has been opened and no return of the EVM s will be accepted if they are damaged or otherwise not in a resalable condition If User feels it has...

Page 25: ...se resources are subject to change without notice TI grants you permission to use these resources only for development of an application that uses the TI products described in the resource Other reproduction and display of these resources is prohibited No license is granted to any other TI intellectual property right or to any third party intellectual property right TI disclaims responsibility for...

Reviews:

No comments