SILION SIMX100 UHF RFID Module

तपशील

• Model: SIMx100
• Output Power: 5dBm to 33dBm adjustable
• Tag Reading Distance: More than 12m (depending on antenna gain and tag आकार)
• CPU: ARMv7-M architecture 32bit Cortex-M4 CPU
• Flash Memory: 512KByte
• Frequency Bands: North America, Europe (30dBm) and Chinese (33dBm)
• परिमाण: 55.9 मिमी x 35.6 मिमी x 6.0 मिमी
• वजन: 21 ग्रॅम
• ऑपरेटिंग तापमान: -25°C ते 75°C
• Certifications: SRRC, CE, FCC, ROHS

वीज पुरवठा
इनपुट व्हॉल्यूमची खात्री कराtage (VCC) is within the range of 3.6V to 5.5V for proper operation.

आउटपुट पॉवर सेट करणे
You can adjust the output power of the module from 5dBm to 33dBm based on your requirements.

Tag वाचन
Position the RFID module appropriately for tag reading, ensuring a clear path for communication with tags.

कनेक्टिव्हिटी
Utilize the UART serial communication with baud rates ranging from 9600bps to 921600bps for data transfer.

पर्यावरणविषयक विचार
Operate the module within the specified temperature and humidity ranges to ensure optimal performance.

ओव्हरview

The UHF 1 port RFID module SIMX100 with high-performance, designed by SILION R&D team. It based on IMPINJ New Generation RF chip E710/E510/E310.

• Output power can be set from 5dBm to 33dBm adjustable. Tag वाचन अंतर ५ मीटरपेक्षा जास्त आहे (अँटेना वाढीवर अवलंबून आणि tag size), And has excellent multi-label inventory performance.
• SIMX100 module has stable and reliable performance, it adopts advanced multi-tag recognition algorithm. Tags can be quickly identified whether moving or stationary.
• Superior anti-interference design and carrier cancellation function, can work stably in various environments.
• A variety of configuration modes, can be widely used in various applications such as warehousing, logistics, production lines, and patrol.

अर्ज 

• Handheld reader
• Desktop reader
• प्रिंटर
• Integrated reader

वैशिष्ट्ये

• ARMv7-M architecture 32bit Cortex-M4 CPU, integrated FPU, MPU, DSP, the highest work main frequency is 200MHz, 512KByte Flash
• Support UHF EPC Class1 Gen2/ISO 18000-6C
• Provide Windows，Linux and Android SDK, and API based on C, C#/.NET, JAVA
• Support inventory of temperature tags, the output parameters include the RSSI and phase value of the tag return signal
• With max power output of 33dBm
• Excellent anti-collision algorithm and high sensitivity. The fastest speed of inventory tags is greater than 1000tag/s
• Multiple inventory mode
• UART serial communication baud rate can be set to 9600bps ~ 921600bps
• 2 inputs 2 outputs,GPIO port.
• North America and Europe frequency bands, the maximum power is 30dBm with a power consumption of 5W. In the Chinese frequency band, the maximum power is 33dBm with a power consumption of 6.75W.
• Aluminum alloy matte shell, weighing 21g, Dimension 55.9mm x 35.6mm x 6.0mm.
• SRRC,CE,FCC and other certifications
• ROHS

मॉडेल	Sensitivity @PER 10%	The speed of inventory tag @96 bit EPC)
SIM7100	-87dbm	>1000
SIM5100	-80dbm	>600
SIM3100	-73dbm	>350

Absolute Max Ratings Value

पॅरामीटर	सही करा	मिनी	ठराविक	कमाल	युनिट
इनपुट व्हॉल्यूमtage	VCC	-0.3		6	V
व्हॉल्यूम सक्षम कराtage	VEN	-0.3		6	V
Reset (NRST) GPI(IN1 IN2) input low खंडtage	VIL			0.6	V
Reset (NRST) GPI(IN1 IN2) input high खंडtage	VIH	2.7			V
GPO (OUT1 OUT2) output current	IOH			15	mA
Module output current	AVCC			20	mA
ESD protection voltage¹	VESD	-2		2	kV
Antenna port (ANT) standing wave ratio²	VSWR			8	/
Operating temperature³	TC	-30		75	℃
स्टोरेज तापमान	TS	-55		100	℃

	मोड
	Operating mode⁶	North America、Europe @30dBm		5		W
		China @33dBm		6.75		W

ESD खबरदारी
Proper precautions must be followed when transporting, packaging and testing the equipment.

1. Antenna port test conditions IEC61000-4-2 level 1, contact discharge; other interfaces are HBM model, contact discharge.
2. The maximum allowable standing wave ratio to prevent damage to the power amplifier chip. To ensure performance, it is recommended that the antenna standing wave ratio be less than 1.5.
3. Ambient temperature. The max temperature limit is related to the module heat dissipation conditions.

सामान्य ऑपरेटिंग अटी

पॅरामीटर	सही करा	मिनी	ठराविक	कमाल	युनिट
इनपुट व्हॉल्यूमtage	VCC	3.6	5	5.5	V
					V
Disabling voltage	VEN			0.4	V
व्हॉल्यूम सक्षम कराtage		1.5			V
Reset (NRST) GPI(IN1 IN2) input low खंडtage	VIL			0.3	V
Reset (NRST) GPI(IN1 IN2) input high खंडtage	VIH	3			V
GPO(OUT1 OUT2) output current	IOH		10		mA
Module output current	AVCC		10		mA
Antenna port (ANT) standing wave ratio1	VSWR			2.5	/
ऑपरेटिंग आर्द्रता (नॉन-कंडेन्सिंग)	RH	5		95	%
ऑपरेटिंग तापमान	TC	-25		65	℃
स्टोरेज तापमान	TS	-40		85	℃

General Electrical Parameters

		अट	मिनी	ठराविक	कमाल	युनिट
वारंवारता	Range¹		860		960	MHz
	Step value²			250/500		KHz
	विचलन	@25℃	-10		10	पीपीएम
आउटपुट	आउटपुट पॉवर		5		33	dBm
	पॉवर पायरी			1		dB
	आउटपुट पॉवर अचूकता	5dBm~33dBm	-1		1	dB
	आउटपुट पॉवर सपाटपणा	5dBm~33dBm	-1		1	dB
	Adjacent channel leakage ratio*	1st समीप चॅनेल		-45		dB
		2nd समीप चॅनेल		-65		dB
	20dB occupied bandwidth*	RF_MODE 7		110		KHz
		RF_MODE 11		215		KHz
	Emission spectrum template*³	समास	2			dB
	Spurious Emissions (Conducted)⁴	2nd हार्मोनिक		-55		dBm
		3rd हार्मोनिक		-38		dBm
माप	Module temperature accuracy	-25℃~115℃⁵	-4		4	℃
	Tag RSSI चाचणी अचूकता	@-60dBm	-3		3	dB
	Tag PHASE test accuracy	@-60dBm	-5		5	अंश
	Load return loss test accuracy	RL>18dB Connect the attenuator	-4		4	dB
UART	डीफॉल्ट बॉड दर	Data format： 8N1		115200		bps
	कॉन्फिगर करण्यायोग्य बॉड दर		9600		921600	bps
उपभोग	पॉवर डाउन मोड			0.00025		W
	low consumption स्टँडबाय मोड			0.1		W
	सामान्य स्टँडबाय			0.6		W

1. Select the frequency band by frequency range, can’t support multiple frequency areas at the same time.
2. The required frequency step can be configured according to the frequency range.
3. Refer to 《ETSI EN 302 208》 4.3.5 Transmitter spectrum masks.
4. Test under full frequency range conditions.
5. When temperature exceeds 90℃, the module will forcefully stop inventory, then need to manually resend the command to start inventory.
6. The operating power consumption of the module is determined based on the matching of the load antenna.

Mark* indicates that the inventory mode RF_MODE 7 is used during testing and the spectrum analyzer is set to MAXHOLD.

Air Interface Mode Parameters and Performance

RF_MO DE ID	Forward Link Modulation	Tari (us)	BLF (KHz)	Reverse Link Modulation	Receive Sensitivity Minimum¹(dBm)			Read Rate²(tag s/s)
					E710	E510	E310
103	DSB-विचारा	6.25	640	FM0	-64.0	N/A	N/A	>1000
11	PR-विचारा	7.5	640	FM0	-64.1	N/A	N/A	>1000
120	DSB-विचारा	6.25	640	मिलर एम=२	-70.3	-65.2	N/A	>600
1	PR-विचारा	7.5	640	मिलर एम=२	-70.4	-65.4	N/A	>600
15	PR-विचारा	7.5	640	मिलर एम=२	-76.2	-70.2	N/A	>450
345	PR-विचारा	7.5	640	मिलर एम=२	-76.4	-71.2	-63	>350
12	PR-विचारा	15	320	मिलर एम=२	-76.6	-71.4	-63	>350
3	PR-विचारा	20	320	मिलर एम=२	-76.1	-71.4	-63	>300
5	PR-विचारा	20	320	मिलर एम=२	-81.5	-75.5	-66.7	>200
7	PR-विचारा	20	250	मिलर एम=२	-81.4	-76	-68	>150
13	PR-विचारा	20	160	मिलर एम=२	-87.4	-80	-73.4	>70

1. Test instrument CISC XPLORER 200，PER 10%, output power 30dBm, antenna port echo less than -20dB.
2. Test antenna gain 12dBi, 4000 tags.
3. N/A indicate this mode is not supported.

From the above table, SIMX100 provides up to 11 configuration methods, listing the two most important indicators for measuring the reader module: sensitivity and multi-tag reading speed. There is a trade-off between sensitivity and multi-tag speed. When the sensitivity is better, the reading speed rate of tags is lower. Between reading better and reading more, need to choose the appropriate mode based on customer application needs. Another thing to note is that when multiple readers work at the same time, there will be interference. Although a smaller TARI speeds up the communication connection with the tag, it will increase the bandwidth of the emission channel, which is easier to interfere with other readers. Higher BLF of the tag will increase the speed of the tag’s reverse transmission signal. The tag return signal will fall in the adjacent channel. When other readers happen to be working in this channel, the reader is likely to be unable to demodulate the return signal of the label.

Inventory Mode Parameters 

For different application scenarios, SIMX100 provides multiple working modes. Except for the temperature-controlled multi-tag inventory mode, other function are automatically completed by  the reader module. This not only saves the command interaction time between the host and the reader module, but the excellent processing algorithm also greatly enhances the application adaptability of the product

अर्ज	ऑपरेटिंग मोड	वर्णन
काही tags, remote inventory	सामान्य मोड	Recommend RF_MODE 13, session 0, with a customization read duration based on the reporting cycle, preferably 50ms or more. The minimum read interval can be set to 0ms.
	जलद मोड	Recommend RF_MODE 13, session0, Target: A
काही tags multi-times inventory	जलद मोड	Recommend RF_MODE 11/103(E710)、RF_MODE 1/120(E510)、RF_MODE 12/345(E310), session1, Target A-B, static Q value (2^Q≥number of tags) करू शकता even be read at a single frequency point
बहु-tag यादी	EX10 fast mode	Gen2 parameter devices such as RF_MODE、session are dynamically adjusted and the tag reading speed is fast. Related parameters configured in this mode do not take effect. This mode is recommended for बहु-tag चाचणी
Read all multi-tag	जलद मोड	Recommend RF_MODE 7/13, session1, can use the full frequency band 860-960MHz when conditions permit.
Temperature controlled multi-tag यादी	E7 temperature control mode	RF_MODE auto-adjustable. When the number of new tags is less than the specified number, the working duty cycle is auto-adjusted; when the number of new tags exceeds the specified number, the full speed mode is restored.Recommended for long-term battery life test/low power consumption test Use this mode.

High read rate inventory multi-tag

जलद मोड

Recommended mode RF_MODE 11/103（E710）、RF_MODE 1/120（E510）、RF_MODE 12/345（E310）， session2/3, Target A, static Q value (2^Q≥number of tag).

If the above mode is supported by the motherboard and communication interface, it will be better to increase the baud rate to 921600bps (the default baud rate is 115200bps).

PIN Configuration and Function

12 PIN interface and RF interface
पिन क्रमांक	पिन नाव	प्रकार	वर्णन
1	VCC	वीज पुरवठा	वीज पुरवठा खंडtage, input range: 3.6V-5.25V.
2	VCC	वीज पुरवठा	वीज पुरवठा खंडtage, input range: 3.6V-5.25V.
3	GND	वीज पुरवठा	ग्राउंड
4	GND	वीज पुरवठा	ग्राउंड
5	EN	डिजिटल इनपुट	Module enable pin, the module is enabled when connected to a high level or left floating; the module is powered off when connected to a low level.
6	आउट 2	डिजिटल I/O	General-purpose I/O port output, push-pull आउटपुट
7	IN1	डिजिटल I/O	General-purpose I/O input
8	IN2	डिजिटल I/O	General-purpose I/O output
9	RXD	डिजिटल इनपुट	Module UART input, 3.3V TTL voltage
10	TXD	डिजिटल आउटपुट	Module UART output, 3.3V TTL voltage
11	एनआरएसटी	डिजिटल इनपुट	Module reset, pull low to reset the module, can be left floating when not in use.
12	आउट 1	डिजिटल I/O	General-purpose I/O port output, push-pull आउटपुट
	एएनटी	RF	RF antenna port (50Ω)

Module bottom solder pads.
पिन क्रमांक	पिन नाव	प्रकार	वर्णन
1	GND	वीज पुरवठा	ग्राउंड
2	GND	वीज पुरवठा	ग्राउंड
3	VCC	वीज पुरवठा	वीज पुरवठा खंडtage, input range: 3.6V-5.25V.
4	VCC	वीज पुरवठा	वीज पुरवठा खंडtage, input range: 3.6V-5.25V.
5	EN	डिजिटल इनपुट	Module enable pin, the module is enabled when connected to a high level or left floating; the module is powered off when connected to a low पातळी
6	RXD	डिजिटल इनपुट	Module UART input, 3.3V TTL voltage
7	TXD	डिजिटल आउटपुट	Module UART output, 3.3V TTL voltage
8	एनआरएसटी	डिजिटल इनपुट	Module reset, pull low to reset the module, can be left floating when not in use.
9	आउट 1	डिजिटल I/O	General-purpose I/O port output, push-pull output.

• Interface FFC/FPC connector: Pitch 1mm, P number: 12P, Drawer type, Bottom connection.
• RF antenna port connector: MMCX.

अर्जाचे वर्णन

Power-on Boot and IO Interface
After the module is powered on, it takes 100ms to initialize. Do not pull the reset pin low during this time, and the reader module will not respond to the received commands.

• The NRST power-on reset release time is less than 3ms. After the module is powered on, pulling the NRST level low will cause the MCU of the internal module to restart. The NRST in the module has been connected to a 100K pull-up resistor. If the module is powered on, the low-level holding time that triggers the reset needs to be greater than 2ms. When reset occurs, the actual waiting time for reset needs to be greater than 110ms.

The response time is measured by the time difference between sending the GPIO command and the response. The command action time set by OUT1 and OUT2 is greater than 78us (not including command time). IN1, IN2 set command action time is greater than 88us (not including command time).

The EN pin has a built-in 100K pull-down resistor. When the EN pin is connected to low level or left floating, the module is powered on. When the EN pin is connected to high level, the module is powered down.

इनपुट पॉवर

It is recommended to use a 22-100uF tantalum capacitor for the VCC power input. If the size is limited, it can be changed to a small-sized ceramic capacitor, and at least a 0.1uF and a 100pF ceramic capacitor are connected in parallel. When inventory tag, the power magnifier inside the module will be turned on and off frequently, which will cause the power supply voltage at the input end of the module to fluctuate accordingly. Add large-capacity capacitors can reduce the fluctuation amplitude of these voltages and filter out the interference of low-frequency signals, but it will also cause large instantaneous currents. According to the driving capability of the module power supply circuit, select an appropriate large-capacity decoupling capacitor. The 0.1uF and 100pF capacitors can be used to filter out the power supply ripple in the high-frequency band. Because the interference signal in the high-frequency band, especially the interference signal in the working frequency band, will enter the module, it will degrade the module’s tag reading performance. And the addition of ceramic capacitors It can also prevent high-frequency signals generated when the module is working from passing through the power path and interfering with other circuit systems. Due to the large operating current of the module, the cable connecting the module must be thick enough, otherwise there will be an excessive voltage difference at both ends of the connecting cable, which will make the module unable to work properly; too thin connecting cables are also more likely to produce radiated interference signals.
If the power input is a DC-DC conversion circuit, it is best to choose a power conversion chip with a switching frequency exceeding 1.5MHz to avoid interference with the weak signal returned by the tag.

Communication Serial Port
The reader module adapts a 3.3V UART serial port for data communication. The data format is configured as 1 bit start, 8 bits data, 1 bit stop, and no check bit (8N1).

During serial communication, the signal frequency aligns closely with the Backscatter Link Frequency (BLF) from tags, potentially causing interference with the RF chip module’s reception. To mitigate this, if serial PCB traces are lengthy, consider placing them in inner PCB layers or on the layer opposite to the antenna. Additionally, include series-matching resistors and parallel  capacitors to ground to minimize signal ringing. For inter-board connections, route lines close to the ground.

The baud rate of the serial port needs to meet the transmission rate requirements of the module for uploading tag data. When inventory large number of tags, the recommended baud rate is as shown in the following table:

RF_MODE ID	Forward Link मॉड्युलेशन	BLF(KHz)	उलट दुवा मॉड्युलेशन	बॉड रेट निवडा
103	DSB-विचारा	640	FM0	921600
11	PR-विचारा	640	FM0	921600
120	DSB-विचारा	640	मिलर एम=२	>460800
1	PR-विचारा	640	मिलर एम=२	>460800
345	PR-विचारा	640	मिलर एम=२	>230400
15	PR-विचारा	640	मिलर एम=२	>230400
12	PR-विचारा	320	मिलर एम=२	>230400
3	PR-विचारा	320	मिलर एम=२	>230400
5	PR-विचारा	320	मिलर एम=२	>115200
7	PR-विचारा	250	मिलर एम=२	>57600
13	PR-विचारा	160	मिलर एम=२	>57600

अँटेना पोर्ट
Mismatch between the module and antenna can lead to excessive signal reflection from the antenna to the reader module, causing a degradation in receiver sensitivity. It is recommended to maintain an antenna VSWR (Voltage Standing Wave Ratio) below 1.5. In applications requiring rapid reading of a large number of tags, especially when using modules based on the E710 chip, a high antenna VSWR that degrades receiver sensitivity can significantly increase the time required for reading all tags. For applications with fewer tags at closer distances, choosing modules based on the E510 or E310 may be more suitable.
Since there is no RF isolator or RF circulator used between the power amplifier chip in the module and the antenna, mismatches between the power amplifier chip and the antenna can affect linearity and conversion efficiency. The former can result in changes in transmission performance, such as reduced power output, radiation of spurious signals, and non-compliance with local radio regulations regarding spectrum masks. The latter can increase the module’s power consumption, operating temperature, and reduce its lifespan. In the worst-case scenario, the power amplifier chip may operate in an unstable region due to mismatches, leading to self-excitation, which can easily damage the power amplifier chip. To ensure optimal module performance and stability, it is recommended to install the antenna in the application environment and use testing software to measure the VSWR after connecting the antenna. The VSWR should ideally be below 1.5.

उष्णता नष्ट होणे
SIMx100 module generates significant heat during fast mode operation, and its built-in aluminum alloy casing may not provide adequate heat dissipation. To ensure effective heat conduction, it is necessary to mount the module on a larger metal heat sink. Additionally, thermal conductive silicone grease or compound should be applied at the contact points between the module and the heat sink. To protect the module from overheating, it will automatically cease tag inventory when the detected temperature reaches 90°C. In such cases, you will need to resend the inventory command to resume tag यादी

संदर्भ

लेबल स्पष्टीकरण

परिमाण
55.9mm x 35.6mm x 6.0mm;weight 21g

देखावा

आवृत्ती 

आवृत्ती	तारीख	सामग्री सुधारित करा
V1.0	२०२०/१०/२३	पहिली आवृत्ती
V1.1	२०२०/१०/२३	Add application scenario parameter configuration
……

The RFID module is installed inside the user’s device. Since the maximum power output of this product can be close to the standard limit(30dBm), the device must be at least 35cm away from the human body.

FCC विधान

हे डिव्हाइस FCC नियमांच्या भाग 15 चे पालन करते. ऑपरेशन खालील दोन अटींच्या अधीन आहे:

1. हे डिव्हाइस हानिकारक हस्तक्षेप करू शकत नाही, आणि
2. अवांछित ऑपरेशनला कारणीभूत असणाऱ्या हस्तक्षेपासह या उपकरणाने प्राप्त झालेला कोणताही हस्तक्षेप स्वीकारला पाहिजे.

Changes or modifications not expressly approved by the party responsible for compliance could void the user’’s authority to operate the equipment.

टीप: This equipment has been tested and found to comply with the limits for a Class B digital device, pursua nt to part 15 of the FCC Rules. 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 a nd, 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. If this equipment does cause harmful interference to radio or television reception, which can be determined by turn ing the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:

• रिसिव्हिंग अँटेना पुनर्स्थित करा किंवा पुनर्स्थित करा.
• उपकरणे आणि रिसीव्हरमधील पृथक्करण वाढवा.
• रिसीव्हर कनेक्ट केलेल्या सर्किटपेक्षा वेगळ्या सर्किटवरील आउटलेटमध्ये उपकरणे कनेक्ट करा.
• Consult the dealer or an experienced radio/TV technician for help important announcement Important Note: Radiation Exposure Statement

हे उपकरण अनियंत्रित वातावरणासाठी निर्धारित केलेल्या FCC रेडिएशन एक्सपोजर मर्यादांचे पालन करते. हे उपकरण रेडिएटर आणि तुमच्या शरीरात किमान 35cm अंतर ठेवून स्थापित आणि ऑपरेट केले पाहिजे. हा ट्रान्समीटर इतर कोणत्याही अँटेना किंवा ट्रान्समीटरच्या संयोगाने सह-स्थित किंवा कार्यरत नसावा. यूएस/कॅनडामध्ये विक्री केलेल्या उत्पादनांसाठी देश कोड निवड वैशिष्ट्य अक्षम केले जाईल.

हे डिव्हाइस खालील अटींनुसार केवळ OEM इंटिग्रेटरसाठी आहे:

1. ऍन्टीना अशा प्रकारे स्थापित करणे आवश्यक आहे की ऍन्टीना आणि वापरकर्त्यांमध्ये 35 सेमी अंतर राखले जाईल आणि
2. ट्रान्समीटर मॉड्यूल इतर कोणत्याही ट्रान्समीटर किंवा अँटेनासह सह-स्थित असू शकत नाही,

जोपर्यंत वरील दोन अटींची पूर्तता होत नाही तोपर्यंत, पुढील ट्रान्समीटर चाचणीची आवश्यकता राहणार नाही. तथापि, या मॉड्यूल स्थापित केलेल्या कोणत्याही अतिरिक्त अनुपालन आवश्यकतांसाठी त्यांच्या अंतिम-उत्पादनाची चाचणी करण्यासाठी OEM इंटिग्रेटर अजूनही जबाबदार आहे.

महत्त्वाची सूचना:

• या अटी पूर्ण केल्या जाऊ शकत नाहीत अशा परिस्थितीत (उदाample काही लॅपटॉप कॉन्फिगरेशन किंवा दुसऱ्या ट्रान्समीटरसह सह-स्थान), नंतर FCC अधिकृतता यापुढे वैध मानली जाणार नाही आणि FCC ID अंतिम उत्पादनावर वापरला जाऊ शकत नाही. या परिस्थितीत, OEM इंटिग्रेटर अंतिम उत्पादनाचे (ट्रांसमीटरसह) पुनर्मूल्यांकन करण्यासाठी आणि स्वतंत्र FCC अधिकृतता प्राप्त करण्यासाठी जबाबदार असेल.
• उत्पादन लेबलिंग समाप्त करा
• अंतिम उत्पादनास दृश्यमान क्षेत्रामध्ये खालील चिन्हासह लेबल केले जाणे आवश्यक आहे”
• Contains FCC ID: 2AQ9M-SIM710002 “
• अंतिम वापरकर्त्याला मॅन्युअल माहिती
• हे मॉड्यूल समाकलित करणाऱ्या अंतिम उत्पादनाच्या वापरकर्त्याच्या मॅन्युअलमध्ये हे RF मॉड्यूल कसे स्थापित करावे किंवा कसे काढावे यासंबंधीची माहिती अंतिम वापरकर्त्याला प्रदान करू नये यासाठी OEM इंटिग्रेटरने जागरूक असले पाहिजे.
• अंतिम वापरकर्ता मॅन्युअलमध्ये या मॅन्युअलमध्ये दर्शवल्याप्रमाणे सर्व आवश्यक नियामक माहिती/इशारे समाविष्ट असतील.
• Integration instructions for host product manufacturers according to KDB 996369 D03 OEM Manual v01r01 CFR 47 FCC PART 15 SUBPART C has been investigated. It is applicable to the modular transmitter
• विशिष्ट ऑपरेशनल वापर अटी
• हे मॉड्यूल स्टँड-अलोन मॉड्यूलर आहे. जर अंतिम उत्पादनामध्ये यजमानामध्ये स्टँड-अलोन मॉड्युलर ट्रान्समीटरसाठी एकाधिक एकाच वेळी प्रसारित स्थिती किंवा भिन्न ऑपरेशनल परिस्थितींचा समावेश असेल, तर होस्ट निर्मात्याला एंड सिस्टममध्ये इंस्टॉलेशन पद्धतीसाठी मॉड्यूल उत्पादकाशी सल्लामसलत करावी लागेल.
• मर्यादित मॉड्यूल प्रक्रिया
  लागू नाही
• अँटेना डिझाइन ट्रेस करा
  लागू नाही

आरएफ एक्सपोजर विचार

• हे उपकरण अनियंत्रित वातावरणासाठी निर्धारित केलेल्या FCC रेडिएशन एक्सपोजर मर्यादांचे पालन करते. हे उपकरण रेडिएटर आणि तुमच्या शरीरात किमान 35 सेमी अंतर ठेवून स्थापित आणि ऑपरेट केले पाहिजे.

अँटेना
This radio transmitter FCC ID: 2AQ9M-SIM710002 has been approved by Federal Communications Commission to operate with the antenna types listed below, with the maximum permissible gain indicated. Antenna types not included in this list that have a gain greater than the maximum gain indicated for any type listed are strictly prohibited for use with this device.

अँटेना क्र.	अँटेनाचे मॉडेल क्रमांक:	अँटेना प्रकार:	Gain     of     the             antenna (Max.)	वारंवारता श्रेणी:
RFID	/	बाह्य अँटेना	6.0 डीबीआय	902-928MHz

लेबल आणि अनुपालन माहिती
अंतिम अंतिम उत्पादनास दृश्यमान क्षेत्रामध्ये खालील लेबलसह लेबल करणे आवश्यक आहे” समाविष्ट आहे

• FCC ID: 2AQ9M-SIM710002.
• चाचणी पद्धती आणि अतिरिक्त चाचणी आवश्यकतांबद्दल माहिती
• जेव्हा होस्टमध्ये मॉड्यूल स्थापित केले जाते तेव्हा ट्रान्समीटरसाठी FCC आवश्यकतांच्या अनुपालनाची पुष्टी करण्यासाठी होस्ट निर्मात्यास जोरदार शिफारस केली जाते.
• अतिरिक्त चाचणी, भाग 15 सबपार्ट बी अस्वीकरण
• भाग 15 B सारख्या प्रणालीसाठी इतर सर्व लागू आवश्यकतांसह स्थापित मॉड्यूलसह ​​होस्ट सिस्टमचे पालन करण्यासाठी होस्ट निर्माता जबाबदार आहे.

EMI विचार लक्षात घ्या
यजमान उत्पादनास "सर्वोत्तम सराव" RF डिझाइन अभियांत्रिकी चाचणी आणि मूल्यमापन म्हणून शिफारस करणारे D04 मॉड्यूल एकत्रीकरण मार्गदर्शक वापरण्याची शिफारस केली जाते जर रेखीय परस्परसंवादांमुळे होस्ट घटक किंवा गुणधर्मांवर मॉड्यूल प्लेसमेंटमुळे अतिरिक्त गैर-अनुपालन मर्यादा निर्माण होतात.

बदल कसे करायचे

• This module is a stand-alone modular. If the end product will involve the Multiple simultaneously transmitting condition or different operational conditions for a stand-alone modular transmitter in a host, host manufacturer have to consult with module manufacturer for the installation method in end system. According to the KDB 996369 D02 Q&A Q12, that a host manufacture only needs to do an evaluation (i.e., no C2PC required when no emission exceeds the limit of any individual device (including unintentional radiators) as a composite. The host manufacturer must fix any failure.
• Silion Technology Corp.,Ltd Tel:（+86）010-62153842/62153840
• ई-मेल:sales@silion.com.cn
• web: www.silion.com.cn

वारंवार विचारले जाणारे प्रश्न

1. What are the supported frequency bands?
The module supports North America, Europe (30dBm), and Chinese (33dBm) frequency bands.

2. How can I adjust the output power?
You can adjust the output power of the module from 5dBm to 33dBm based on your requirements.

3. कमाल किती आहे tag reading distance?
द tag reading distance is more than 12m, depending on antenna gain and tag आकार

कागदपत्रे / संसाधने

SILION SIMX100 UHF RFID Module [pdf] मालकाचे मॅन्युअल SIMX100, SIMX100 UHF RFID Module, UHF RFID Module, RFID Module, Module

संदर्भ

• वापरकर्ता मॅन्युअल