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ZMOD4510 Evaluation Kit User Manual 

 

© 2019 Integrated Device Technology, Inc. 

August 14, 2019 

 

Figure 2. 

Jumper Settings, LEDs, and Connectors on Top Side of ZMOD4510 Communication Board 

Select Internal or 
External Supply for 
Sensor Board (K2)

Potentiometer for 
Setting Supply 
Voltage (R19)

Current Measurement
Direct or Shunt Resistor (K1)

14-Pin Connector for 
Sensor Board (K4)

8-Pin, 2-Row Connector (K3)

Micro USB B-Type 
Connector (X1)

Status LED (D1)

External Sensor Socket (Modul1)

AD5 Status LED (D2)

Internal Supply 
Status LED (D3)

 

Table 1. 

Evaluation Kit Connection Descriptions 

Connector  

Type 

Description 

K1 

4-pin, 2-row header 

This jumper can be used to break the supply voltage line to measure the current consumption of 
a connected Sensor Board. Important: During normal operation, ensure that a jumper is on the 
“DMM” position as shown in Figure 2.  

K2 

3-pin header 

This jumper selects either the internal or external voltage supply. For the proper position for the 
jumper, see Figure 3.  

K3 

8-pin, 2-row right-angle 
header 

This connector can be used to connect the ZMOD4510 in different configurations or to measure 
the communication lines and voltages on the ZMOD4510 Sensor Board. AD5 is a GPIO pin that 
can be controlled via the software. 

K4 

14-pin connector 

This is the connector for installing the ZMOD4510 Sensor Board on the Communication Board. 

K5 

2-pin header 

This is the connector for an optional external voltage supply (see Figure 3)

D1 

Status LED 

This LED lights if the Communication Board is powered correctly (see Figure 2).  

D2/AD5 

Status LED 

This LED lights if the trigger pin is set by the software (see Figure 2)

D3 

Status LED 

This LED will light with an intensity proportional to the internal voltage supply that was set using 
the potentiometer (see Figure 2). 

X1 

Micro-USB B-type 

This is the micro-USB cable connector for connecting the Communication Board to the user’s 
computer. 

R19 

Potentiometer  

This potentiometer adjusts the internal supply voltage. The internal supply voltage can be 
adjusted by rotating the potentiometer with a small screwdriver.  

Modul1 

DIL socket  

This socket can be used to add external components (e.g., a humidity sensor) to the 
Communication Board. For further instructions, contact IDT.  

 

Содержание ZMOD4510-EVK

Страница 1: ...on Board has devices mounted on both sides The components on the top side generate a stable supply voltage A potentiometer can be used to adjust the internal supply voltage in the typical range from 1...

Страница 2: ...E OF TRADE CUSTOM OR COURSE OF DEALING Restrictions in Use IDT s ZMOD4140 Evaluation Kit consisting of the HiCom Communication Board ZMOD4510 Sensor Board and the ZMOD4510 Evaluation Software is desig...

Страница 3: ...rnal Supply Voltage 7 Figure 4 Initial Display for the ZMOD4510 Start up 8 Figure 5 Communication Board Schematic Page 1 10 Figure 6 Communication Board Schematic Page 2 11 Figure 7 Sensor Board Schem...

Страница 4: ...ing requirements 1GB RAM Hard drive with at least 250MB free space 1 USB port Windows Vista Windows 7 Windows 8 Windows 10 Internet access for initial download of the drivers and software Important Be...

Страница 5: ...he proper orientation of the Sensor Board as shown on page 1 3 Insert the micro USB cable into the X1 connector on the Communication Board and connect it to a free USB port on the user s computer If t...

Страница 6: ...er This connector can be used to connect the ZMOD4510 in different configurations or to measure the communication lines and voltages on the ZMOD4510 Sensor Board AD5 is a GPIO pin that can be controll...

Страница 7: ...ints on Communication Board for the Internal or External Supply Voltage K2 Jumper If using the internal supply set the jumper to the int position If using an external supply set the jumper to the ext...

Страница 8: ...start sensor button is clicked the button name changes to stop sensor and the measurement starts running continuously with the given sample time the default is 1 minute The results will be saved in a...

Страница 9: ...plots Algorithm Result The first 10 measurements of the algorithm will be taken for sensor stabilization During this time the Algorithm Result section will indicate the completion progress Note that t...

Страница 10: ...ZMOD4510 Evaluation Kit User Manual 2019 Integrated Device Technology Inc 10 August 14 2019 3 Schematics Figure 5 Communication Board Schematic Page 1...

Страница 11: ...ZMOD4510 Evaluation Kit User Manual 2019 Integrated Device Technology Inc 11 August 14 2019 Figure 6 Communication Board Schematic Page 2...

Страница 12: ...ZMOD4510 Evaluation Kit User Manual 2019 Integrated Device Technology Inc 12 August 14 2019 Figure 7 Sensor Board Schematic...

Страница 13: ...100nF 0603 10 C13 100nF 0603 11 C14 100nF 0603 12 C15 100nF 0603 13 C16 100nF 0603 14 C17 10 F 16V 0805 15 C18 27pF 0603 16 C19 27pF 0603 17 C20 10 F 16V 0805 18 C21 10 F 16V 0805 19 C22 100nF 0603 20...

Страница 14: ...4 90 42 K4 K2X7 LH 14 43 K5 V_EXT 1X02 44 L1 10 H 1210 45 L2 10 H 1210 46 L3 10 H 1210 47 Modul1 Honeywell480 3652 1 ND DIL8 SMD Socket 48 Q1 12 00MHz QUARZ ABM3 49 R1 1k 0805 50 R2 1k 0805 51 R3 1 6k...

Страница 15: ...Table 4 Sensor Board BOM Designator Quantity Manufacturer Manufacturer Part Number C1 2 Taiyo Yuden LMK105BJ104KV F U1 1 IDT ZMOD4510 X1 1 Sullins SFH11 PBPC D07 ST BK 5 Board Layout Figure 8 HiCom C...

Страница 16: ...ZMOD4510 Evaluation Kit User Manual 2019 Integrated Device Technology Inc 16 August 14 2019 Figure 10 Sensor Board Layout Top Layer Figure 11 Sensor Board Layout Bottom Layer...

Страница 17: ...products The information contained herein is provided without representation or warranty of any kind whether express or implied including but not limited to the suitability of IDT s products for any p...

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