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High Accuracy Current and Power Monitor Evaluation Board

EVB_RTQ6053GQV

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This document provides information on the function and use of the RTQ6053 evaluation board (EVB), as well as instructions for operating and modifying the board and circuit to meet individual requirements. Additionally, it includes details on the schematic diagram, bill of materials, and evaluation board layout.

General Description

This document provides information on the function and use of the RTQ6053 evaluation board (EVB), as well as instructions for operating and modifying the board and circuit to meet individual requirements. Additionally, it includes details on the schematic diagram, bill of materials, and evaluation board layout.



Performance Specification Summary

Summary of the RTQ6053GQV Evaluation Board performance specificiaiton is provided in Table 1. The ambient temperature is 25°C.


Table 1. RTQ6053GQV Evaluation Board Performance Specification Summary

Specification

Test Conditions

Min

Typ

Max

Unit

Default Input Voltage

Default = 12V

0

--

36

V

Supply Voltage

Default = 3.3V

2.7

--

5.5

V

Sensing Current

--

0.5

--

A

1 LSB Step Size

Sense voltage

--

2.5

--

μV

Bus voltage

--

1.25

--

mV

Gain Error

--

0.02

0.3

%

Offset Voltage, RTI

--

±2.5

±25

mV

Quiescent Current

TA = 25°C

--

550

650

μA

Shutdown mode

--

3.5

6

μA



Power-up Procedure

Suggestion Required Equipments

  • RTQ6053GQV Evaluation Board
  • DC Power Supply (Chroma, 62006P-100-25)
  • DC Power Supply (Agilent, E3632A)
  • Electronic load capable of 6A
  • DC Meter
  • Richtek Wrenboard

Quick Start Procedures

1. Apply VS = 3.3V input power supply (2.7V < VS < 5.5V) to VS and GND terminals.

2. Apply 12V input power voltage (0V < IN+ < 36V) to IN+ and GND terminals.

3. The default sense resistance is 100mΩ.

4. Connect an external load to IN- and GND terminals, and keep loading current = 0.5A.

5. Measure the sense voltage (approximately 50mV) between IN+ and IN-.

6. Use RTQ6056 GUI to check practical sense voltage, bus voltage, current and power.


Graphical User Interface

Technical Document Image Preview

Figure 1. RTQ6053 Graphical User Interface


Configuring the RTQ6056 EVB Software

Step 1. Set the shunt resistor value.

Step 2. Set Max expected current for sensing.

Step 3. Set minimum current resolution for current LSB.

Step 4. Push “Apply” bottom, the 0x05 Calibration register is written into a value for expected current LSB.

Step 5. Select single read or continued read for showing practical data.


Alert Indicator

Figure 2 shows an example for configuring the Alert Pin. The user can monitor five alert functions or conversion ready notification through the alert config drop-down menu, and the threshold can be programed in the Alert Limit.

The five alert functions are listed below:

  • Sense Voltage Over-Limit (SOL)
  • Sense Voltage Under-Limit (SUL)
  • Bus Voltage Over-Limit (BOL)
  • Bus Voltage Under-Limit (BUL)
  • Power Over-Limit (POL)

Technical Document Image Preview

Figure 2. Configuring the Alert Pin



Detailed Description of Hardware

Headers Description and Placement

Technical Document Image Preview

Carefully inspect all the components used in the EVB according to the following Bill of Materials table, and then make sure all the components are undamaged and correctly installed. If there is any missing or damaged component, which may occur during transportation, please contact our distributors or e-mail us at evb_service@richtek.com.


Test Points

The EVB is provided with the test points and pin names listed in the table below.

Test Point/

Pin Name

Function

A1, A0

Slave address selection.

IN+

Positive current-sensing input.

IN-

Negative current-sensing input.

VBUS

Bus voltage input.

VS

Power supply, 2.7V to 5.5V.

Alert

Multi-functional alert, open-drain output.



Bill of Materials

VIN = 12V, VS = 3.3V, IOUT = 0.5A

Reference

Count

Part Number

Value

Description

Package

Manufacturer

U1

1

RTQ6053GQV

RTQ6053GQV

16-Bit ADC Op Amp

VQFN-16L 3x3

RICHTEK

C1, C2, C5, C6

4

0603B104K500CT

0.1µF

Capacitor, Ceramic, 50V/X7R

0603

WALSIN

C3

1

GRM21BC71E106KE11L

NC

0805

MURATA

C4

1

1206X106K500CT

NC

1206

TDK

R1, R2

2

WR06X000 PTL

0

Resistor

0603

WALSIN

R3, R4, R5

3

WR06X1002FTL

10k

Resistor

0603

WALSIN

RSEN1

1

RTT25R100FTE

0.1

Resistor

2512

RALEC



Typical Applications

EVB Schematic Diagram

Technical Document Image Preview

1. The capacitance values of the input and output capacitors will influence the input and output voltage ripple.

2. MLCC capacitors have degrading capacitance at DC bias voltage, and especially smaller size MLCC capacitors will have much lower capacitance.


Measurement Results

Sense Gain Error with Power Supply Measurement

Sense Gain Error with Temperature Measurement

Technical Document Image Preview

Technical Document Image Preview

Bus Gain Error with Power Supply Measurement

Bus Gain Error with Temperature Measurement

Technical Document Image Preview

Technical Document Image Preview



Evaluation Board Layout

Figure 3 and Figure 4 are RTQ6053GQV Evaluation Board layout. This board size is 70mm x 50mm and is constructed on two-layer PCB, outer layers with 2 oz. Cu and inner layers with 1 oz. Cu.

Technical Document Image Preview

Figure 3. Top View


一張含有 文字, 螢幕擷取畫面, 電腦 的圖片

自動產生的描述

Figure 4. Bottom View

Title Last Update Share Download
Evaluation Board User Guide 2023/06/01
Bill of Materials 2023/06/01
Schematic 2023/06/01
Gerber File 2023/06/01
Part NumberDistributorStockBuy From Authorized Distributor
EVB_RTQ6053GQV Digikey 4 Buy
Mouser Lead-Time: 14 weeks Not Available
WPG Lead-Time: 14 weeks Not Available
IC
Part NumberPackage TypePackage Qty.Free SampleDistributorStockBuy From Authorized Distributor
RTQ6053GQVVQFN3x3-161,500 Request Digikey 820 Buy
Mouser Lead-Time: 14 weeks Not Available
WPG Lead-Time: 14 weeks Not Available
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