ZMOD4510 [RENESAS]

Gas Sensor Module for Outdoor Air Quality;


型号：	ZMOD4510
厂家：	RENESAS TECHNOLOGY CORP
描述：	Gas Sensor Module for Outdoor Air Quality
文件：	总17页 (文件大小：641K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Gas Sensor Module for

Outdoor Air Quality

ZMOD4510

Datasheet

Description

Features

The ZMOD4510 Gas Sensor Platform detects outdoor air quality in

a variety of indoor and outdoor applications. The module is a 12-

pin LGA assembly (3.0 × 3.0 × 0.7 mm) that consists of a gas

sense element and a CMOS signal conditioning IC. The module’s

sense element consists of a heater element on a silicon-based

MEMS structure and a metal-oxide (MOx) chemiresistor. The

signal conditioner controls the sensor temperature and measures

the MOx conductivity, which is a function of the gas concentration.

Measurement of outdoor air quality, including ppb trace gas

concentrations of nitrogen oxides (NO_x) and ozone (O₃)

Supports international standards for total outdoor air quality,

such as the US Environmental Protection Agency (EPA)

Heater driver and regulation loop for constant resistance,

minimizing effect of environmental temperature on signal

Internal auto-compensated temperature sensor; not stress

sensitive

The device is ideal for monitoring and reporting Total Outdoor Air

Quality. The Air Quality Index (AQI) output is based on a

combination of outdoor gases present, including nitrogen oxides

(NOx) and ozone (O3).

I2C interface: up to 400kHz

Configurable alarm/interrupt output with static and adaptive

levels

Built-in nonvolatile memory (NVM) for module-specific data

Low average power consumption in low mW range

Supports low-voltage and low-power battery applications

No external trimming components required

The measurement results can be read via an I2C interface with the

user’s microprocessor, which processes the data to determine the

levels of gases present and to indicate the AQI based on

international standards. With its low operating current, the

ZMOD4510 is an excellent choice for low-voltage and low-power

battery applications. Built-in nonvolatile memory (NVM) stores the

module configuration and calibration data.

External reset pin (active-LOW)

Customization for mobile, industrial, and consumer

applications

Siloxane resistant

RoHS compliant

Typical Applications

Outdoor air monitoring

Detect unhealthy conditions in outdoor air

Personal air quality monitors

ZMOD4510 Application Circuit

Automation based on AQI (HVAC systems, building air

purification systems)

VSS

V_SUPPLY

VSS

Power

VDDIO

Supply

VDDH

Physical Characteristics

VDD

Target operation temperature: -40°C to 65°C

Supply voltage: 1.7V to 3.6V

ZMOD4510

Gas Sensor Module

SDA

Package: 12-LGA

SCL

Algorithms

Post-Processing

Assembly size: 3.0 × 3.0 × 0.7 mm

INT

RES_N

Available Support

ZMOD4510 Evaluation Kit

Manuals, application notes, blog, and white papers

Instructional videos

Programming libraries, example codes, and algorithm

support to optimize performance

February 7, 2020

ZMOD4510 Datasheet

Contents

1. Pin Assignments...........................................................................................................................................................................................3

2. Pin Descriptions............................................................................................................................................................................................3

3. Absolute Maximum Ratings..........................................................................................................................................................................4

4. Operating Conditions....................................................................................................................................................................................4

5. Electrical Characteristics ..............................................................................................................................................................................5

6. Block Diagram ..............................................................................................................................................................................................6

7. Sensor Module Characteristics.....................................................................................................................................................................7

8. Gas Sensor Module Characteristics.............................................................................................................................................................8

8.1 Typical Gas Stimulation.......................................................................................................................................................................8

8.2 Environmental Temperature and Humidity..........................................................................................................................................9

8.3 Accuracy and Conditioning..................................................................................................................................................................9

9. Assembly Restrictions, Operation, Integration Notes, and Storage............................................................................................................10

10. Test and Calibration ...................................................................................................................................................................................11

11. I2C Interface and Data Transmission Protocol...........................................................................................................................................11

12. Related Websites and Software .................................................................................................................................................................13

13. Glossary .....................................................................................................................................................................................................13

14. Package Outline Drawings .........................................................................................................................................................................14

15. Marking Diagram ........................................................................................................................................................................................14

16. Ordering Information...................................................................................................................................................................................14

17. Revision History..........................................................................................................................................................................................14

List of Figures

Figure 1. Pin Assignments – Top View...............................................................................................................................................................3

Figure 2. Humidity Influence on the Sensitivity for 100ppb NO₂.........................................................................................................................9

Figure 3. Typical Solder Profile.........................................................................................................................................................................10

Figure 4. I2C Data Transmission Protocol........................................................................................................................................................12

Figure 5. Bus Timing.........................................................................................................................................................................................12

List of Tables

Table 1. Pin Descriptions...................................................................................................................................................................................3

Table 2. Absolute Maximum Ratings.................................................................................................................................................................4

Table 3. Operating Conditions...........................................................................................................................................................................4

Table 4. Electrical Characteristics .....................................................................................................................................................................5

Table 5. Gas Sensor Module Characteristics....................................................................................................................................................7

Table 7. Air Quality Index Levels Described by the EPA* .................................................................................................................................8

Table 8. Typical ZMOD4510 Sensor Module Accuracy Achievable with Calibration.........................................................................................9

Table 9. Final Test Parameters .......................................................................................................................................................................11

Table 10. Bus Timing Characteristics................................................................................................................................................................12

February 7, 2020

ZMOD4510 Datasheet

1. Pin Assignments

Figure 1. Pin Assignments – Top View

VSS

n.c.

VSS

VDD

n.c.

VDDH

RES_N

VDDIO

Pin 1

Corner

SCL

SDA

INT

2. Pin Descriptions

Table 1.

Pin Descriptions

Pin Number

Name

SCL

Type

Description

Serial clock for the I2C interface.

Input

SDA

Input/Output

Serial data for the I2C interface. Default 7-bit slave address: 33_HEX

Interrupt signal (push-pull):

INT

Output

HIGH when a measurement is running

LOW when a measurement has finished

n.c.

VDD

–

Do not connect.

Supply

Ground

–

Voltage supply for the ZMOD4510.

Ground reference for the ZMOD4510.

Do not connect.

VSS

n.c.

VSS

Ground

Supply

Input

Ground reference for the ZMOD4510.

Voltage supply for the integrated heater in the ZMOD4510.

ZMOD4510 reset; active low.

VDDH

RES_N

VDDIO

Supply

Voltage supply for I/O-interface in ZMOD4510.

February 7, 2020

ZMOD4510 Datasheet

3. Absolute Maximum Ratings

The absolute maximum ratings are stress ratings only. The ZMOD4510 might not function or be operable below and above the recommended

operating conditions given in Table 2. Stresses exceeding the absolute maximum ratings will change the sensor accuracy; lead to imprecision,

and eventually cause irreversible damage to the device. In addition, extended exposure to stresses above the recommended operating

conditions might affect device reliability. Renesas does not recommend designing to the “Absolute Maximum Ratings.”

Table 2.

Absolute Maximum Ratings

Parameter

Symbol

Minimum

Typical

Maximum

Units

V_DD, V_DDH,

V_DDIO

Maximum Analog and I/O Supply Voltage

-0.4

3.63

V_{A_IO}, V_{D_IO}

Maximum Voltage at all Analog and Digital I/O Pins

-0.5

–

V_DDIO+ 0.5

0.4

Maximum Difference in Voltage between VDD and VDDH Pins

Input Current into any Pin Except Supply Pins (Latch-Up Immunity)

Electrostatic Discharge Tolerance – Human Body Model (HBM)

I_IN

-100

–

100

V_HBM1

2000

Electrostatic Discharge Tolerance – Charged Device Model (CDM)

on Packaged Module

V_CDM

–

1500

T_OPERATION

T_STOR

Operation Temperature Sequence of Sense Element ^[a]

Storage Temperature

220

-50

320

125

°C

[a] Controlled via API in firmware and EVK software.

4. Operating Conditions

Note: The reference for all voltages is V_SS.

Table 3.

Operating Conditions

Symbol

V_DD

Parameter

Minimum

1.7

Typical

Maximum

Unit

Supply Voltage for ZMOD4510 Sensor Module

Ambient Temperature Range for Sensor Operation

–

3.6

T_AMB

-40

°C

February 7, 2020

ZMOD4510 Datasheet

5. Electrical Characteristics

The following values are valid at operating conditions unless noted otherwise.

Table 4.

Electrical Characteristics

Symbol

Parameter

Conditions

Continuous operation

At VDD = 1.8V

Minimum

Typical

Maximum

Unit

Average Power ZMOD4510

–

Supply Current, Active Mode including

Heater Current.

0I_ACTIVE

At VDD = 3.3V

Supply Current, Sleep Mode ASIC,

No Wake-up Timer Active

Does not include sensor heater

current

I_SLEEP

–

450

–

PSRR

Power Supply Rejection Ratio

V_DD≥ 2.0V

At room temperature; for timings

derived from the internal clock

-2

Timing Accuracy

(Valid for Measurements Only);

(Sleep Timer is ±20%)

Over-temperature range; for timings

derived from the internal clock

-0.1

–

0.1

%/K

Bit

r_ADC

ADC Resolution

Start-up Time: V_DDRamp up to

Interface Communication

t_STA1

Start-up Time: V_DDRamp up to Analog

Operation

t_STA2

t_WUP1

t_WUP2

–

2.5

0.5

Wake-up Time for Sleep to Active

Mode: Interface Communication

Wake-up Time for Sleep to Active

Mode: Analog Operation

f_C,I2C

t_VPP

I2C Clock Frequency

–

400

–

kHz

NVM Programming Time

Data Retention

–

t_{RET_FTP}

85°C junction temperature

7-bit slave address

1000

–

years

cycles

–

NVM Programming Cycles

Default Communication Address

–

33_HEX

–

Ceramic type; recommended to be

placed close to gas sensor module

Blocking Capacitor for Power Supply

100

–

February 7, 2020

ZMOD4510 Datasheet

6. Block Diagram

Note: See section 11 for definitions of abbreviations.

VDDH

VDD

VDD2

VDD

TST

Bias

Current

Bandgap

Vr ef

Regulator

VDD2

Regulator

Clock

POR

VDDIO

Mux

ZMOD4510

Sensor Module

Temp

Sensor

Temp

Amp

Vr ef

R-stri ng

Anal og

Digital

SDA

Sy stem

Control and

Sequencer

I2C

R/V

Converter

Mux

ADC

SCL

RES_N

INT

Memory

Heater

Driv er

VSS

February 7, 2020

ZMOD4510 Datasheet

7. Sensor Module Characteristics

The ZMOD4510 Gas Sensor Module detects typical outdoor gases based on studies and international standards for outdoor air quality.

Characteristic module parameters are shown in Table 5. The ZMOD4510 uses a sequence of applied temperatures in order to sample the air

and report a combined Air Quality Index based on the EPA standard. The sample rate to execute the sequence and detect outdoor air is

60 seconds. The sensor does not require an active or direct airflow onto the sensor module since diffusion of ambient gas does not limit the

sensor response time.

Important: The ZMOD4510 can also detect safety-relevant gases; however, the sensor is not designed to detect these interferants reliably and

therefore it is not approved for use in any safety-critical or life-protecting applications. It must not be used in such applications, and Renesas

disclaims all liability for any such use.

Table 5.

Gas Sensor Module Characteristics

Symbol

Parameter

Measurement Range

Humidity Range

Conditions

Minimum

Typical

Maximum

500

Unit^[a]

ppb

Ozone

Nitrogen dioxide

Non-condensing

500

ppb

% RH

°C

Temperature Range

-40

Variation in sensor signal for

consecutive exposures

Repeatability

±25

±60

T-90

Response Time

Limited by sample rate

sec

[a] The abbreviation ppb stands for “parts per billion” and is a molar ratio with the exponent of 10^-9.

February 7, 2020

ZMOD4510 Datasheet

8. Gas Sensor Module Characteristics

Additional information about sensitivity and sensor influences are explained in detail in the following sections. All graphs and information show

the typical responses that are to be expected from the ZMOD4510 Gas Sensor Module upon exposure to a variety of test conditions. For

additional information, including application notes, white papers, blog, and manuals, visit www.idt.com/ZMOD4510.

8.1 Typical Gas Stimulation

The algorithm provided by Renesas for the user’s microprocessor uses the output from the ZMOD4510 to determine the relative level of outdoor

gases present (see Renesas’ ZMOD4510 Programming Manual – Read Me; see section 12). The algorithm features an automated baseline

correction function, ensuring that the module can learn from its environment and distinguish elevated levels of outdoor gases under all

conditions. The proprietary metal oxide (MOx) used in the sensor ensures that the sensor module can respond effectively to changing Ozone

and Nitrogen Oxide levels during long-term operation.

There are many sources of poor outdoor air that can elevate the Air Quality Index (AQI). Renesas has adopted the definition of Outdoor Air

Quality and its impact on user health and comfort proposed by the US Environmental Protection Agency (EPA); see Table 6^*. The ZMOD4510

Gas Sensor Module can detect the presence of elevated Ozone (O₃) and Nitrogen Oxides (NO₂) levels as described by the EPA. Each

concentration is considered from a 1-hour class; however, in case the 1-hour value is not available a linear approach was assumed to calculate

the AQI value. AQI values above 500 are considered beyond the AQI.

The reported AQI from the ZMOD4510 sensor is derived from the calculated combination of NO₂and O₃present.

Additional information on this topic, chemical background information, and measurement technologies is available in Renesas’ ZMOD4510

White Paper – Overview Outdoor Air Quality.

Table 6.

Air Quality Index Levels Described by the EPA*

Air Quality Index (AQI) Level of Concern and Air Quality Condition NO₂Concentration [ppb] O₃Concentration [ppb] Color Code

0 to 50

Good

Moderate

0 to 53

54 to 100

0 to 62

Green

Yellow

Orange

Red

51 to 100

101 to 150

151 to 200

201 to 300

301 to 500

63 to 124

125 to 164

165 to 204

205 to 404

405 to 604

Unhealthy for Sensitive Groups

Unhealthy

101 to 360

361 to 649

650 to 1249

1250 to 2050

Very unhealthy

Hazardous

Purple

Maroon

^*AirNow, United States Environmental Protection Agency, Office of Air Quality Planning and Standards (OAQPS), 2019

February 7, 2020

ZMOD4510 Datasheet

8.2 Environmental Temperature and Humidity

The sensor module is tested, qualified, and functional in the operation range of -40°C to +65°C. Figure 2 shows the module’s sensitivity during

operation to variations in relative humidity while stimulated with 100ppb Nitrogen Dioxide (NO₂). Due to the low influence of humidity, there is

additional humidity measurement and no algorithmic compensation necessary.

Figure 2. Humidity Influence on the Sensitivity for 100ppb NO₂

8.3 Accuracy and Conditioning

All Renesas gas sensor modules come with electrical and chemical factory calibration with data stored in the module’s nonvolatile memory

(NVM). Using the software provided by Renesas and the calibration coefficients in the NVM will result in stable measurements of the AQI levels

discussed in section 8.1. The ZMOD4510 will respond reliably to typical outdoor gases after a warm-up time of 60 min, consisting of 20 min for

stabilization and 40 min for baseline finding; however, a conditioning period of 48 hours in an outdoor environment is recommended to improve

stability and achieve maximum performance.

Users who require an absolute measurement with the maximum achievable accuracy are advised to re-calibrate the sensor with a known

outdoor air compound. This enables an absolute accuracy of ±15% (see Table 7). For some environments, an interference response to

siloxanes is of concern; however, Renesas’ ZMOD4510 gas sensors have been proven to be resistant against siloxanes. A maximum potential

life-time exposure has been simulated in all ZMOD4510 operation modes by applying the chemicals D4 (Octamethylcyclotetrasiloxane) and D5

(Decamethylcyclopentasiloxane) in high concentration for several hundred hours.

Table 7.

Typical ZMOD4510 Sensor Module Accuracy Achievable with Calibration

Symbol

Parameter

Accuracy

Durability to Siloxanes

Conditions

With additional calibration

Change in sensitivity

Minimum

Typical

±15

Maximum

Unit

±8

February 7, 2020

ZMOD4510 Datasheet

9. Assembly Restrictions, Operation, Integration Notes, and Storage

When implementing the ZMOD4510 in electrical circuit boards, a gas sensor module may react to chemicals during the assembly process and

to outgassing components, such as resins from the printed circuit board (PCB) assembly. A standard soldering profile can be used to assemble

the ZMOD4510 on the user’s PCB and should fulfill the IPC/JEDEC J-STD-020C Standard (“Moisture/Reflow Sensitivity Classification for Non-

hermetic Solid State Surface Mount Devices”). A typical lead-free reflow solder profile is shown in Figure 3. After assembly, an outgassing of

the PCB and electronic components must be considered, especially when operating the sensor module at elevated temperatures. This will

ultimately influence the sensor signal and accuracy of the Air Quality Index (AQI). A PCB heat treatment before assembling the ZMOD4510 is

recommended. After the gas sensor module assembly, no coating, cleaning, or ultrasonic bath should be applied to the PCB.

Store the sensor in an antistatic metallic bag with a low VOC background after the sensor module is removed from its original packaging or the

assembled PCB is populated. The optimal storage conditions are <1 ppm TVOC, <100 ppb O3, <100 ppb NO2, 10°C to 50°C, and humidity

levels within 20% to 80%RH. If the sensor is stored outside of these conditions for extended periods of time, the sensor readings can exhibit a

temporary offset. The sensor can be reconditioned and brought back to its calibration state by operation for 24 hours to 48 hours in clean air.

To operate the ZMOD4510, the software and libraries provided by Renesas can be used. For implementing the sensor module in a customer-

specific application, detailed information on the programming is available. The ZMOD4510 Programming Manual - Read Me explains

documentation, libraries for supported controllers and compilers, code examples in C, and the minimum requirements for the host MCU for an

easy integration (see section 12).

Figure 3. Typical Solder Profile

February 7, 2020

ZMOD4510 Datasheet

10. Test and Calibration

As a unique feature, all sampled gas sensor modules are fully tested during Renesas’ final test. The final test parameters in Table 8 are applied

for each ZMOD4510. All sensor modules are pre-stabilized in the final test although the user might see a small change in the module’s raw

signal during an initial warm-up phase during the first operation. The gas sensor module qualification is based on JEDEC (JESD47) and its

subsequent standard (JESD22, JESD78 etc.); it has been tested for a lifetime of 5 years. Renesas has proven a MOx lifetime of over 15+ years

in actual continuous operation in conditions without exposures to stressful environments.

Table 8.

Final Test Parameters

Test Results

Test

Electrical

Gas

Test Object

Parameters

Saved in NVM?

ASIC

Voltages, current consumption, frequencies, scan pattern

Calibration conditions, tracking ID, resistances

Yes

Module

Sensitivity parameters (slope and intercept) at stimulation with different gas concentrations

Pre-stabilization

Gas

11. I2C Interface and Data Transmission Protocol

The I2C slave device interface supports various bus speeds: Standard Mode (≤100kHz) and Fast Mode (≤400kHz).

By default, the 7-bit slave address for the serial I2C data interface is set to 33_HEX. The implemented data transmission protocol is similar to the

one used for conventional EEPROM devices. The register to read/write is selected by a register address pointer. This address pointer must be

set during an I2C write operation. After transmission of a register, the address pointer is automatically incremented. An increment from the

address FF_HEXrolls over to 00_HEX

For an example of the I2C data transmission protocol, see Figure 4. For information on I2C bus timing, see Figure 5. For I2C bus characteristics,

see Table 9, which explains how to set up the interface. Although the ZMOD4510 has an I2C interface, the user is not intended to modify any

registers because a configuration change will affect the sensor’s performance, reliability, and accuracy. The API provided with the downloadable

firmware package on the website manages all necessary sensor communication.

To validate the read/write access it is possible to write random values to registers 0x88 to 0x8B, and then read them afterwards. After register

testing, reset the device by disconnecting the power support; otherwise, the device may not operate properly.

February 7, 2020

ZMOD4510 Datasheet

Figure 4. I2C Data Transmission Protocol

WRITE Access RAM

Slave Addr

7 Bit

Data

8 Bit

Data

8 Bit

Data

8 Bit

...

Address

A P

Write

READ Access NVM and RAM

Slave Addr

7 Bit

Address

8 Bit

Slave Addr

7 Bit

Data

8 Bit

Data

8 Bit

Data

8 Bit

...

Write

Read

From master to slave

From slave to master

START condition

STOP condition

Acknowledge

Not acknowledge

Figure 5. Bus Timing

SDA

t_LOW

t_SUDAT

t_HDSTA

t_BUS

SCL

t_HDSTA

t_HDDATt_HIGH

t_SUSTA

t_SUSTO

Table 9.

Bus Timing Characteristics

Parameter

Maximum SCL clock frequency

Symbol

f_SCL

Standard Mode

Fast Mode

Units

kHz

µs

100

400

t_HDSTA

t_LOW

Minimum START condition hold time relative to SCL edge

Minimum SCL clock low width

4.7

µs

t_HIGH

Minimum SCL clock high width

µs

t_SUSTA

t_HDDAT

t_SUDAT

t_SUSTO

t_BUS

Minimum START condition setup time relative to SCL edge

Minimum data hold time on SDA relative to SCL edge

Minimum data setup time on SDA relative to SCL edge

Minimum STOP condition setup time on SCL

4.7

µs

0.1

µs

Minimum bus free time between stop condition and start condition

4.7

µs

February 7, 2020

ZMOD4510 Datasheet

12. Related Websites and Software

Visit the ZMOD4510 and ZMOD4510 Evaluation Kit (ZMOD4510-EVK) product pages on Renesas’ website to download software and the latest

version of related documents, such as application notes, white papers, product briefs, and third-party reports.

Note that some documents require logging in with a free customer account, which can be set up under the “LOG IN” button on www.IDT.com.

Some downloads require an additional step to complete a request form that appears when the link is clicked.

Product

ZMOD4510

Web Page

www.IDT.com/ZMOD4510

www.IDT.com/ZMOD4510-EVK

ZMOD4510-EVK

If further support is needed for downloading, contact Renesas via the contact information on the last page.

13. Glossary

Term

ADC

CDM

Description

Analog-to-Digital Converter

Charged Device Model

Common Mode Generator

EPA

HBM

LGA

Environmental Protection Agency (USA)

Human Body Model

Land Grid Array

Low Voltage

MOx

MSL

Mux

n.a.

Metal Oxide

Moisture Sensitivity Level

Multiplexer

Not Applicable

NVM

POR

Nonvolatile Memory

Power-On Reset

Relative Humidity

Serial Data

SDA

SCL

SSC

TST

TVOC

Serial Clock

Sensor Signal Conditioner

Test

Total Volatile Organic Compounds

February 7, 2020

ZMOD4510 Datasheet

14. Package Outline Drawings

The package outline drawings are appended at the end of this document and are accessible from the link below. The package information is

the most current data available.

www.idt.com/document/psc/12-lga-package-outline-drawing-30-x-30-x-07-mm-body-05-x-10-mm-pitch-lgg12d1

15. Marking Diagram

1. Line 1 is the truncated part number.

4510AI1

LOT

YYWW

2. Line 2 – “LOT” denotes the assembly lot number.

3. Line 2 – “YYWW” are the last two digit of the year and week that the part was assembled.

16. Ordering Information

Orderable Part Number

Description and Package

MSL Rating

Carrier Type

Tray

Temperature

-40°C to +65°C

ZMOD4510AI1V

ZMOD4510 Sensor Module, 3.0 × 3.0 × 0.7 mm 12-LGA

Reel

ZMOD4510AI1R

ZMOD4510 Evaluation Kit including the ZMOD4510 Sensor Board, HiCom Communication Board (USB Interface)

and Micro-USB Cable. The Gas Sensor Evaluation Software is available for download free of charge on

www.IDT.com/ZMOD4510-EVK

ZMOD4510-EVK-HC

17. Revision History

Revision Date

Description of Change

• Added ROHS compliance

February 7, 2020

• Updated NVM data space

• Updated on temperature measurements

September 9, 2019

Initial release.

February 7, 2020

12-LGA, Package Outline Drawing

3.0 x 3.0 x 0.7 mm Body, 0.5 x 1.0 mm Pitch

LGG12D1, PSC-4685-01, Rev 02, Page 1

∠

12-LGA, Package Outline Drawing

3.0 x 3.0 x 0.7 mm Body, 0.5 x 1.0 mm Pitch

LGG12D1, PSC-4685-01, Rev 02, Page 2

Package Revision History

Description

Date Created Rev No.

Sept 12, 2019 Rev 01.

Add Dimension on Gal Inlet Hole

Dec 17, 2019 Rev 02 Add Location Dimension Gal Inlet

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SPECIFICATIONS AND RELIABILITY DATA (INCLUDING DATASHEETS), DESIGN RESOURCES (INCLUDING

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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 developers skilled in the art designing with Renesas products. You are solely responsible

for (1) selecting the appropriate products for your application, (2) designing, validating, and testing your application, and (3)

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to Renesas' Terms and Conditions of Sale or other applicable terms agreed to in writing. No use of any Renesas resources

expands or otherwise alters any applicable warranties or warranty disclaimers for these products.

(Rev.1.0 Mar 2020)

Corporate Headquarters

Contact Information

TOYOSU FORESIA, 3-2-24 Toyosu,

Koto-ku, Tokyo 135-0061, Japan

www.renesas.com

For further information on a product, technology, the most

up-to-date version of a document, or your nearest sales

office, please visit:

www.renesas.com/contact/

Trademarks

Renesas and the Renesas logo are trademarks of Renesas

Electronics Corporation. All trademarks and registered

trademarks are the property of their respective owners.

ZMOD4510 [RENESAS]

相关型号：

ZMOD4510-EVK-HC

ZMOD4510AI1R

ZMOD4510AI1V

ZMOT0BHH0A0AG

ZMOT0BHH0A0BG

ZMOT0BHH0B0AG

ZMOT0BHH0B0CG

ZMOT0BHH0C0AG

ZMOT0BHH0C0CG

ZMOT0BHH0D0AG

ZMOT0BHH0D0CG

ZMOT0BHH1A0AG