SNVU543A November   2016  – December 2016 LM5170 , LM5170-Q1

 

  1.   LM5170-Q1 EVM User Guide
    1.     Trademarks
    2. 1 Features and Electrical Performance
    3. 2 Setup
      1. 2.1 EVM Configurations
      2. 2.2 Bench Setup
      3. 2.3 Test Equipment
    4. 3 Test Procedure
      1. 3.1 Buck Mode Power-Up and Power-Down Sequence
      2. 3.2 Boost Mode Power-Up and Power-Down Sequence
      3. 3.3 Bidirectional Operation Power-Up and Power-Down Sequence
      4. 3.4 Operating the EVM With the Onboard Analog Loop Control Circuit
      5. 3.5 Operating the EVM With External MCU or Other Digital Circuit
    5. 4 Test Data
      1. 4.1  Efficiency
      2. 4.2  Current Regulation and Monitoring
      3. 4.3  Typical Master Enable Power Up and Shutdown
      4. 4.4  Channel Enable and Disable
      5. 4.5  Dual-Channel Interleaving Operation
      6. 4.6  ISETA Tracking
      7. 4.7  Diode Emulation Preventing Negative Currents
      8. 4.8  Dynamic DIR Change
      9. 4.9  Step Load Response
      10. 4.10 OVP
      11. 4.11 Output Short Circuit
    6. 5 Design Files
      1. 5.1 Schematics
      2. 5.2 Bill of Materials
      3. 5.3 Board Layout
  2.   Revision History

2.1 EVM Configurations

Figure 2 shows the EVM board top view and circuit layout partitions. The EVM has the following ports:

  • 48VDC-Port: Connected to 48-V battery rail
  • 12VDC-Port: Connected to 12-V battery rail
  • J17 (60-Pin Header): Interfacing the external control commands or MCU
  • J18 (60-Pin Header): Interfacing the slave EVM’s J17 in a 4-phase system consisting of two EVMs
  • Master Enable Using J17-pin 5: Providing a voltage of 2.5 V to 6 V to operate the EVM.
  • Channel Current Setting: Analog programming at J17-pin 11, and digital programming at J17-pin 13.

Table 2 through Table 5 list the functions of the EVM jumpers and headers. They offer flexible configurability and programmability of the EVM for various use cases including but not limited to the following:

  • A unidirectional or bidirectional current source
  • A unidirectional or bidirectional voltage source
  • Dynamic phase adding and shedding in a 4-phase system consisting of two EVMs
  • Dynamic MOSFETs dead time adjustment
  • Individual channel current monitoring or total current monitoring
  • Programmable undervoltage lockout (unpopulated)
  • Synchronization to external clock
  • External shutdown command through nFAULT pin (J17-pin45)

LM5170-Q1-simplified-bidirectional-converter-schematic-SNVU543.gifFigure 1. Simplified EVM Schematic
LM5170-Q1-evm-board-top-view-and-layout-partitions-SNVU543.pngFigure 2. EVM Board Top View and Layout Partitions

Table 2. Three-Pin Header Settings

HEADER SIGNAL PINS FUNCTION DESCRIPTION DEFAULT
J1 --(1) No UVLO Programming Y
(1,2)(2) 48VDC-Port UVLO Control
(2,3)(3) 12VDC-Port UVLO Control
J5 OPT -- External interleaving control through J17
(1,2) CH-2 240 degree delay from CH-1
(2,3) CH-2 180 degree delay from CH-1 Y
J7 OTEMP -- Onboard Overtemperature protection disabled Y
(1,2) Overtemperature protection in hiccup mode
(2,3) Overtemperature protection in latched shutdown
J13 SYNC -- Slave EVM not sync to master EVM Y
(1,2) Slave EVM sync to master via J18
(2,3) Slave EVM sync to external Clock
J21 BIAS -- Use external 10V supply
(1,2) Onboard +10V produced from the 12VDC-Port
(2,3) Onboard +10V produced from the 48VDC-Port Y
J28 DIR -- External DIR control through J17
(1,2) Onboard DIR command for buck operation Y
(2,3) Onboard DIR command for boost operation
J29 EN1 -- External CH-1 enable control through J17
(1,2) Onboard CH-1 enable Y
(2,3) Onboard CH-1 disable
J30 EN2 -- External CH-1 enable control through J17, overridden by J25. Y
(1,2) Onboard CH-2 enable
(2,3) Onboard CH-2 disable
J31 UVLO -- External EVM enable through J17 Y
(1,2) Onboard EVM enable, if external 3.3V is supplied to J17-pin23.
(2,3) EVM disable
(1) – = All jumper pins open.
(2) (1,2) = Pins 1 and 2 closed.
(3) (2,3) = Pins 2 and 3 closed.

Table 3. Two-Pin Header Settings

HEADER SIGNAL PINS FUNCTION DESCRIPTION DEFAULT
J2 IOUT1 O(1) External IOUT1 termination
C(2) Onboard IOUT1 termination Y
J3 SYNCOUT O Enable the fault detection Y
C Disable the fault detection disabled
J4 VCC O An external 10-V supply as VCC supply Y
C The onboard 10-V regulator as VCC supply
J6 ISETD O ISETD input disabled
C ISETD input is enabled Y
J8 IOUT2 O External IOUT2 signal termination
C Onboard IOUT2 signal termination Y
J14 3.3 V O Onboard 3.3-V bias voltage disconnected from the slave EVM Y
C Onboard 3.3-V bias voltage feeding the slave EVM
J15 5 V O Onboard 5-V bias voltage disconnected from the slave EVM Y
C Onboard 5-V bias voltage feeding the slave EVM
J16 IOUT_All O Independent channel monitor Y
C Combined total monitor in master/slave configuration. Requiring J25 to be closed too.
J19 10 V O 10-V bias voltage disconnected from the slave EVM Y
C 10-V bias voltage feeding the slave EVM
J20 nFAULT O Independent master/slave nFAULT signal Y
C Combined master/slave nFAULT signal
J22 EN O Independent enable control of the master and slave EVMs Y
C Combined enable control of the master and slave EVMs
J23 CH1S O Independent slave EVM CH-1 enable Y
C Combined master/slave channel enable
J24 IOUT1-2 O Independent channel current monitors Y
C Combined dual-channel current monitor
J25 EN1-2 O Independent channel enable Y
C Combined dual-channel enable
J26 DTS O Independent DT adjustment input for the slave EVM Y
C Combined DT adjustment for both the master and slave EVMs
J27 DT O External programmable DT adjustment input Y
C Onboard DT setting
J32 OPT/ EN2_slave O 3- and 4-phase transition disabled Y
C 3- and 4-phases transition enabled
J33 ILIM O External current limit control input Y
Do not close
J34 48VDC Sense O Boost analog outer voltage loop control disabled Y
C Boost analog outer voltage loop control enabled
J35 12VDC Sense O Buck analog outer voltage loop control disabled Y
C Buck analog outer voltage loop control enabled
J36 ISETA O Analog outer voltage loop control disabled Y
C Analog outer voltage loop control enabled
J37 5 V O Analog outer voltage loop control disabled Y
C Analog outer voltage loop control enabled
(1) Jumper pins open.
(2) Jumper pins closed.

Table 4. J17 60-Pin Header Description(1)

PIN SIGNAL I/O DESCRIPTION
1 V48SN O(2) 48V-port voltage sense during operation
3 V12SN O 12V-port voltage sense during operation
5 EN (MASTER ENABLE) I(3) Master EVM enable (connect to the UVLO pin of the IC)
7 CH1 I CH-1 control (connect to the EN1 pin of the IC)
9 DIR I Direction command
11 ISETA I Channel current setting (analog voltage)
13 ISETD I Channel current setting (PWM signal)
15 SYNCIN I Input of the external clock to be synchronized to
17 SYNCOUT O Clock output signal
19 OPT I Interleave angle setting
21 CH2 I CH-2 control (connect to the EN2 pin of the IC)
23 +3.3 V O Output of onboard +3.3-V voltage
25 +5 V O Output of onboard +5-V voltage
27 IOUT1 O CH-1 monitor
29 IOUT2 O CH-2 current monitor
31 IOUT1_S O Slave EVM CH-1 monitor in 3 or 4 phases
33 IOUT2_S O Slave EVM CH-2 current monitor in 3 or 4 phases
35 AGND I/O Reference GND for control signals
37 PGND O Power ground of the DC-DC converter
39 DT I Dead time adjustment pin
41 DT_S I Slave dead time adjustment pin
43 +10 V I/O Input of +10-V bias supply, or output of onboard +10-V bias supply
45 nFAULT I/O Fault report flag, or external shutdown command pin
47 ENABLE_S I Slave EVM enable (connect to the UVLO pin of the slave IC)
49 CH1_S I Slave EVM CH-1 control (connect to the EN1 pin of the slave IC)
51 CH2_S I Slave EVM CH-2 control (connect to the EN2 pin of the slave IC)
53 SYNCIN_S I Input of the external clock for the slave to be synchronized to
55 SYNCOUT_S O Slave EVM clock output signal
57 nFAULT_S I/O Slave EVM fault report flag, or external shut down command input pin
59 KEY No Connect
All even number pins AGND I/O All signals’ return
(1) J17 is the interface connector to MCU, or external digital controller, or to the master EVM’s J18 if the host EVM serves as a slave in the multiphase configuration.
(2) I = input pin
(3) O = output pin

Table 5. J18 60-Pin Header Description(1)

PIN SIGNAL I/O DESCRIPTION
1 V48_X No Connect
3 V12_X No Connect
5 ENABLE_S I(2) Slave EVM enable (connect to the UVLO pin of the slave IC)
7 CH1_S I Slave EVM CH-1 control (connect to the EN1 pin of the IC)
9 DIR I Direction command
11 ISETA I Channel current setting (analog voltage)
13 ISETD I Channel current setting (PWM signal)
15 SYNCIN_S I The external clock input for the slave
17 SYNCOUT_S O(3) Slave EVM clock output signal
19 OPT I Interleave angle setting
21 CH2_S I Slave EVM CH-2 control (connect to the EN1 pin of the IC)
23 +3.3 V I Output of onboard +3.3-V voltage
25 +5 V I Output of onboard +5-V voltage
27 IOUT1_S O Slave EVM CH-1 monitor in 3 or 4 phases
29 IOUT2_S O Slave EVM CH-2 current monitor in 3 or 4 phases
31 IOUT1_X Not used
33 IOUT2_X Not used
35 AGND I/O Reference GND for control signals
37 PGND O Power ground of the DC-DC converter
39 DT_S I Slave EVM dead time adjustment pin
41 DT_X No Connect
43 +10 V I Input of +10-V bias supply, or output of onboard +10-V bias supply
45 nFAULT_X I/O Slave EVM fault report flag, or external shutdown command pin
47 UVLO_X No Connect
49 CH1_X No Connect
51 CH2_X No Connect
53 SYNCIN_X No Connect
55 SYNCOUT_X No Connect
57 nFAULT_X No Connect
59 KEY No Connect
All even number pins AGND I/O All signals’ return
(1) J18 is the interface connector to the slave EVM in the multiphase configuration if the host EVM serves as the master. All control commands and control signals are sent through J18 to the slave EVM’s J17.
(2) I = input pin
(3) O = output pin