Welcome to Zhuhai HDL Computer Products Co., Ltd.
HL3029B Sub1G Pass-Through Module
隐藏域元素占位
Category:
Keywords:
High sensitivity
FSK and PSK modulation
433MHz · 20dBm · 2Km long-distance
Broadcast
Monitor
Fixed point
Algorithmic encryption
Strong anti-interference ability
Low power consumption
RSSI signal strength detection
High precision crystal oscillator frequency without deviation
File Download:
- Product Description
-
- Commodity name: HL3029B Sub1G Pass-Through Module
Frequency bands: 370–590 MHz, 740–1180 MHz
Utilizing ChirpIoTTM modulation and demodulation technology, the system employs half-duplex wireless communication. Operating in distinct frequency bands—370–590 MHz and 740–1180 MHz—the HL3029B module stands out for its exceptional features: high immunity to interference, ultra-high sensitivity, low power consumption, and an exceptionally long transmission range. Boasting an industry-leading link budget, along with a remarkable sensitivity of -140 dBm and a maximum RF transmit power of approximately 22 dBm, this module is perfectly suited for long-distance communication applications that demand both unparalleled reliability and performance.
Utilizing ChirpIoTTM modulation and demodulation technology, the system employs half-duplex wireless communication. Operating in distinct frequency bands—370–590 MHz and 740–1180 MHz—the HL3029B module stands out for its exceptional features: high immunity to interference, ultra-high sensitivity, low power consumption, and an exceptionally long transmission range. Boasting a industry-leading link budget, along with a remarkable sensitivity of -140 dBm and a maximum RF transmit power of approximately 22 dBm, this module is perfectly suited for long-distance communication applications demanding both unparalleled reliability and performance.
Compared to traditional modulation techniques, the HL3029AT+ module also offers significant advantages in terms of blocking and adjacent-channel selectivity, further enhancing communication reliability.
ChirpIoT™: This series of chips and platforms is entirely owned by Panchip, representing independently developed, licensed-band low-power wide-area IoT technology with proprietary intellectual property rights.
Specifications
Below 1 GHz
• Frequency range: 370–590 MHz, 740–1180 MHz
• Transmitter output power: -7 dBm to 22 dBm
• Maximum Link Budget: 162 dB
• Sensitivity: -140 dBm @ 62.5 kHz
• Operating current
• Bandwidth: 62.5 kHz, 125 kHz, 250 kHz, 500 kHz
• Scaling Factor (SF): 7–12, with automatic scaling factor recognition supported
• Coding rate (CR): 4/5, 4/6, 4/7, 4/8
• Supports CAD functionality
• Data rate: 0.08–20.4 Kbps
• Supports a 4-wire SPI interface and 2 GPIOs
• Fully integrated frequency synthesizer
Deep sleep mode current: <1 µA
Current draw: 12.5 mA @ DC-DC mode
Launch current: 135 mA @ 22 dBm
83 mA @ 18 dBm, 25 mA @ 0 dBm
Electrical Specifications
Below 1 GHz
Note: The VDD and other parameters described in this section correspond to the power input pins labeled "xxx_SUB" and similar in the pin information.
Absolute Maximum Ratings
Symbol Description Parameters Unit Min Type Max Power supply voltage Power supply voltage 3.3 5 7 The input does not contain any text suitable for translation. VI Input voltage -0.3 Input: - Power supply voltage The input does not contain any text suitable for translation. VO Output voltage VSS Input: - Power supply voltage The input does not contain any text suitable for translation. TOP Operating temperature -30 Input: - 70 °C TSTG Storage temperature -40 Input: - 85 °C Current consumption
Symbol Description Parameters Unit Test conditions Min Type Max VDD Power supply voltage 5 The input does not contain any text suitable for translation. TA = 25°C VSS Ground Input: - 0 Input: - The input does not contain any text suitable for translation. IdeepSleep Deep sleep mode current Input: - 400 Input: - Input: nA ITX, 22 dBm Operating current during launch
PatternInput: - 135 Input: - Milliamperes 22 dBm transmit output power ITX, 18 dBm Input: - 83 Input: - Milliamperes 18 dBm transmission power ITX, 0 dBm Input: - 25 Input: - Milliamperes 0 dBm transmit output power IRX, DCDC Current operation in RX
PatternInput: - 12.5 Input: - Milliamperes Maximum LNA Gain in DCDC IRX, LDO Input: - 18 Input: - Milliamperes Maximum LNA Gain in LDO Mode VOH Output high-level voltage VDD-0.3 Input: - Power supply voltage The input does not contain any text suitable for translation. Input: - VOL Output low-level voltage VSS Input: - VDD + 0.3 The input does not contain any text suitable for translation. Input: - HIV Input high-level voltage 0.8 × VDD Input: - Input: - The input does not contain any text suitable for translation. Input: - VIL Input low-level voltage Input: - Input: - 0.2 × Power Voltage The input does not contain any text suitable for translation. Input: - SPI_rate SPI Clock Rate Input: - Input: - 10 Megabits per second Input: - Note:
Test conditions: Power supply voltage: 3.3V DC, temperature: 25°C, frequency: 490 MHz. Exceeding any one or more of the maximum rated values may result in permanent damage. Electrostatic-sensitive devices—please follow proper handling and protection guidelines.
RF Performance
Test conditions:
Supply voltage: 3.3V
Temperature: 25°C
Frequency: 490 MHz
Error correction code = 4/8
Packet error rate ≤ 5%
Payload length = 10 bytes
Symbol Description Conditions Min Type Max Unit General frequency FOP Operating frequency Input: - 370 Input: - 590 Megahertz Input: - 740 Input: - 1180 Megahertz Fxtal Crystal frequency Input: - Input: - 32 Input: - Megahertz RS Crystal Series Resistors Input: - Input: - Thirty Fifty Europe CFOOT Crystal External Capacitor Input: - 8 15 22 Picoamp CLOAD Crystal Load Capacitance Input: - 6 10 12 Picoamp FTOL Initial Frequency Tolerance Input: - Input: - ±10 Input: - One in a million BR Bitrate 0.08 Input: - 20.4 Kilobits per second PLPWAN Output power Input: - -7 Input: - 22 Decibel-milliwatts Receiver RF_62.5 RF sensitivity, long-range mode, maximum gain , using separate RX/TX channels with a 62.5 kHz bandwidth SF = 7
SF = 10
SF = 12- - - -126
-135
-140- - - Decibel-milliwatts RF_125 RF sensitivity, long-range mode, maximum gain , using separate RX/TX channels with a bandwidth of 125 kHz SF = 7
SF = 10
SF = 12- - - -124
-132
-137- - - Decibel-milliwatts RF_250 RF sensitivity, long-range mode, maximum gain , using a separate 250 kHz bandwidth Receive/Transmit Channel SF = 7
SF = 10
SF = 12- - - -121
-129
-134- - - Decibel-milliwatts RF_500 RF sensitivity, long-range mode, maximum gain , with a bandwidth of 500 kHz when using a single channel Receive/Transmit Channel SF = 7
SF = 10
SF = 12- - - -119
-126
-132- - - Decibel-milliwatts Note: The test data above is based on the 490 MHz frequency point. Parameters for other frequency bands may vary.
Previous Page
Next Page
Product Details
Utilizing ChirpIoTTM modulation and demodulation technology, the system employs half-duplex wireless communication. Operating in distinct frequency bands—370–590 MHz and 740–1180 MHz—the HL3029B module stands out for its exceptional features: high immunity to interference, ultra-high sensitivity, low power consumption, and an exceptionally long transmission range. Boasting an industry-leading link budget, along with a remarkable sensitivity of -140 dBm and a maximum RF transmit power of approximately 22 dBm, this module is perfectly suited for long-distance communication applications that demand both unparalleled reliability and performance.
Utilizing ChirpIoTTM modulation and demodulation technology, the system employs half-duplex wireless communication. Operating in distinct frequency bands—370–590 MHz and 740–1180 MHz—the HL3029B module stands out for its exceptional features: high immunity to interference, ultra-high sensitivity, low power consumption, and an exceptionally long transmission range. Boasting a industry-leading link budget, along with a remarkable sensitivity of -140 dBm and a maximum RF transmit power of approximately 22 dBm, this module is perfectly suited for long-distance communication applications demanding both unparalleled reliability and performance.
Compared to traditional modulation techniques, the HL3029AT+ module also offers significant advantages in terms of blocking and adjacent-channel selectivity, further enhancing communication reliability.
ChirpIoT™: This series of chips and platforms is entirely owned by Panchip, representing independently developed, licensed-band low-power wide-area IoT technology with proprietary intellectual property rights.
Specifications
Below 1 GHz
• Frequency range: 370–590 MHz, 740–1180 MHz
• Transmitter output power: -7 dBm to 22 dBm
• Maximum Link Budget: 162 dB
• Sensitivity: -140 dBm @ 62.5 kHz
• Operating current
• Bandwidth: 62.5 kHz, 125 kHz, 250 kHz, 500 kHz
• Scaling Factor (SF): 7–12, with automatic scaling factor recognition supported
• Coding rate (CR): 4/5, 4/6, 4/7, 4/8
• Supports CAD functionality
• Data rate: 0.08–20.4 Kbps
• Supports a 4-wire SPI interface and 2 GPIOs
• Fully integrated frequency synthesizer
Deep sleep mode current: <1 µA
Current draw: 12.5 mA @ DC-DC mode
Launch current: 135 mA @ 22 dBm
83 mA @ 18 dBm, 25 mA @ 0 dBm
Electrical Specifications
Below 1 GHz
Note: The VDD and other parameters described in this section correspond to the power input pins labeled "xxx_SUB" and similar in the pin information.
Absolute Maximum Ratings
| Symbol | Description | Parameters | Unit | ||
| Min | Type | Max | |||
| Power supply voltage | Power supply voltage | 3.3 | 5 | 7 | The input does not contain any text suitable for translation. |
| VI | Input voltage | -0.3 | Input: - | Power supply voltage | The input does not contain any text suitable for translation. |
| VO | Output voltage | VSS | Input: - | Power supply voltage | The input does not contain any text suitable for translation. |
| TOP | Operating temperature | -30 | Input: - | 70 | °C |
| TSTG | Storage temperature | -40 | Input: - | 85 | °C |
Current consumption
| Symbol | Description | Parameters | Unit | Test conditions | ||
| Min | Type | Max | ||||
| VDD | Power supply voltage | 5 | The input does not contain any text suitable for translation. | TA = 25°C | ||
| VSS | Ground | Input: - | 0 | Input: - | The input does not contain any text suitable for translation. | |
| IdeepSleep | Deep sleep mode current | Input: - | 400 | Input: - | Input: nA | |
| ITX, 22 dBm | Operating current during launch Pattern | Input: - | 135 | Input: - | Milliamperes | 22 dBm transmit output power |
| ITX, 18 dBm | Input: - | 83 | Input: - | Milliamperes | 18 dBm transmission power | |
| ITX, 0 dBm | Input: - | 25 | Input: - | Milliamperes | 0 dBm transmit output power | |
| IRX, DCDC | Current operation in RX Pattern | Input: - | 12.5 | Input: - | Milliamperes | Maximum LNA Gain in DCDC |
| IRX, LDO | Input: - | 18 | Input: - | Milliamperes | Maximum LNA Gain in LDO Mode | |
| VOH | Output high-level voltage | VDD-0.3 | Input: - | Power supply voltage | The input does not contain any text suitable for translation. | Input: - |
| VOL | Output low-level voltage | VSS | Input: - | VDD + 0.3 | The input does not contain any text suitable for translation. | Input: - |
| HIV | Input high-level voltage | 0.8 × VDD | Input: - | Input: - | The input does not contain any text suitable for translation. | Input: - |
| VIL | Input low-level voltage | Input: - | Input: - | 0.2 × Power Voltage | The input does not contain any text suitable for translation. | Input: - |
| SPI_rate | SPI Clock Rate | Input: - | Input: - | 10 | Megabits per second | Input: - |
Note:
Test conditions: Power supply voltage: 3.3V DC, temperature: 25°C, frequency: 490 MHz. Exceeding any one or more of the maximum rated values may result in permanent damage. Electrostatic-sensitive devices—please follow proper handling and protection guidelines.
RF Performance
Test conditions:
Supply voltage: 3.3V
Temperature: 25°C
Frequency: 490 MHz
Error correction code = 4/8
Packet error rate ≤ 5%
Payload length = 10 bytes
| Symbol | Description | Conditions | Min | Type | Max | Unit | |
| General frequency | |||||||
| FOP | Operating frequency | Input: - | 370 | Input: - | 590 | Megahertz | |
| Input: - | 740 | Input: - | 1180 | Megahertz | |||
| Fxtal | Crystal frequency | Input: - | Input: - | 32 | Input: - | Megahertz | |
| RS | Crystal Series Resistors | Input: - | Input: - | Thirty | Fifty | Europe | |
| CFOOT | Crystal External Capacitor | Input: - | 8 | 15 | 22 | Picoamp | |
| CLOAD | Crystal Load Capacitance | Input: - | 6 | 10 | 12 | Picoamp | |
| FTOL | Initial Frequency Tolerance | Input: - | Input: - | ±10 | Input: - | One in a million | |
| BR | Bitrate | 0.08 | Input: - | 20.4 | Kilobits per second | ||
| PLPWAN | Output power | Input: - | -7 | Input: - | 22 | Decibel-milliwatts | |
| Receiver | |||||||
| RF_62.5 | RF sensitivity, long-range mode, maximum gain , using separate RX/TX channels with a 62.5 kHz bandwidth | SF = 7 SF = 10 SF = 12 | - - - | -126 -135 -140 | - - - | Decibel-milliwatts | |
| RF_125 | RF sensitivity, long-range mode, maximum gain , using separate RX/TX channels with a bandwidth of 125 kHz | SF = 7 SF = 10 SF = 12 | - - - | -124 -132 -137 | - - - | Decibel-milliwatts | |
| RF_250 | RF sensitivity, long-range mode, maximum gain , using a separate 250 kHz bandwidth Receive/Transmit Channel | SF = 7 SF = 10 SF = 12 | - - - | -121 -129 -134 | - - - | Decibel-milliwatts | |
| RF_500 | RF sensitivity, long-range mode, maximum gain , with a bandwidth of 500 kHz when using a single channel Receive/Transmit Channel | SF = 7 SF = 10 SF = 12 | - - - | -119 -126 -132 | - - - | Decibel-milliwatts | |
Note: The test data above is based on the 490 MHz frequency point. Parameters for other frequency bands may vary.
Related Products
HL3029 Sub-1GHz Pass-Through Module
Frequency bands: 370–590 MHz, 740–1180 MHz
Frequency bands: 370–590 MHz, 740–1180 MHz
Frequency bands: 370–590 MHz, 740–1180 MHz Frequency band: 2.4 GHz
HL2100 Outdoor Industrial Gateway
Frequency bands: 370–590 MHz, 740–1180 MHz (Sub-1G)
Frequency band: 2.4 GHz (Wi-Fi)
Frequency Bands: 4G LTE FDD: B1/B3/B5/B7/B8/B20/B28; LTE TDD: B38/B39/B40/B41
Online Consultation
We can recommend suitable products based on your needs. Please fill out the form below, and we will contact you promptly! Please enter content...
Contact Number
Company Address
No. 1, Pingxi 6th Road, Nanping Science and Technology Industrial Park, Xiangzhou District, Zhuhai City, Guangdong Province (Postal Code: 519060)
Follow us