1、Industry Technology Review and Pain Point Analysis

Laser ranging, a core sensing technology for industrial automation, precision construction surveying, and UAV obstacle avoidance, has its performance limits determined by the quality of the analog signal chain's foundational layer. In systems utilizing pulse time-of-flight (ToF) or phase-detection logic, three critical challenges emerge: (1) capturing nanosecond-level (ns) weak pulse echoes amidst high background noise; (2) achieving millisecond-level precision in threshold decisions to minimize system errors; and (3) maintaining the purity of reference tracks during intense drive current fluctuations.

ChisynV, with years of expertise in high-performance analog integrated circuits, delivers comprehensive device solutions covering analog front-end, power management, voltage detection, and interface communication. Its portfolio includes operational amplifiers, comparators, linear regulators, RS-232 interface chips, and USB microcontrollers, forming a complete, mass-production-ready application-grade solution.

2、System Architecture and Device Division

In this architecture, the functional allocation of ChisynV Micro Devices is as follows:

The echo signal amplification is implemented by using the operational amplifiers CD8051, CDV358 and DV722.

The battery threshold detection is implemented by using CD2903 comparator.

The voltage regulation module utilizes the CD1117 linear regulator.

The external serial communication is CD3232.

The system uses CD9002 as the main controller and USB interface.

1. Design of Echo Signal Analog Front-end

(1) CD8051 high-speed preamplifier

The echo signal output from photoelectric receiver usually has a very small amplitude and a steep edge, which needs a high-speed and low-noise amplifier for pre-processing.

The CD8051 supports single-supply operation (2.5V-5.5V) with a rail-to-rail output architecture. It delivers a typical small-signal bandwidth of 150MHz-250MHz, featuring an input bias current of 1pA and a static current of approximately 2.8mA per channel.

In the system, CD8051 is used as the preamplifier of the receiver, which amplifies the weak signal of the photoelectric receiver at high speed, and maintains low distortion and high bandwidth, providing a high quality analog signal for the subsequent mixing, filtering and sampling.

(2) Amplification and Filtering of Middle and Rear End: CDV358 and CDV722

After demodulation or frequency mixing, the echo signal still requires amplitude adjustment, filtering and shaping, and then is driven to the ADC.

The CDV358 features a gain bandwidth of approximately 1.1MHz and a static current of 60-80µA. It supports rail-to-rail input/output, millivolt-level input offset voltage, and picoampere-level input bias current, making it ideal for low-power filtering and buffering applications.

The CDV722 features a 10MHz gain bandwidth and a slew rate of approximately 7V/µs, while also supporting rail-to-rail input/output, achieving an optimal balance between speed and power consumption.

In the system, these two types of operational amplifiers are mainly used to perform the secondary amplification of the signal after the mixer, active filtering, and ADC input buffering, ensuring that the signal amplitude, bandwidth, and stability meet the precision requirements of analog-to-digital conversion.

2. Battery Voltage Detection: CD2903 Comparator

Laser rangefinder is usually powered by battery, so the battery status must be monitored in real time.

The CD2903 is a dual-channel comparator with a supply range of 2V to 30V. It features a typical input offset voltage of ±1mV, microampere-level static current per channel, and an open-drain output structure with a response time of approximately 1.3µs.

In the system, the CD2903 connects to the battery voltage divider network, compares the actual battery voltage with the preset reference threshold, and outputs the result to the MCU. This enables low-power alarm, full-charge detection, and system power-off protection logic. Its wide voltage range and low power consumption make it ideal for portable, long-endurance ranging devices.

3. Power Supply Voltage Stabilization Design: CD1117

The system's power supply architecture follows the sequence: battery → charge management → DC-DC boost → LDO voltage regulator, with the LDO utilizing the CD1117 component.

The CD1117 features a maximum input voltage of 15V, supporting fixed or adjustable outputs including 1.5V,1.8V,2.5V,3.3V, and 5V. It delivers a maximum output current of 0.8A with a typical voltage drop of 1.39V and a load regulation rate of 0.2% to 0.4%. The device also includes overcurrent and overheat protection.

In the laser rangefinder, the CD1117 supplies low-noise, stable power to sensitive modules including MCU, operational amplifier, and ADC, effectively mitigating DC-DC boost ripple effects on analog front-end and measurement accuracy. This component is pivotal to system stability.

4. Serial communication interface: CD3232

In industrial or debugging applications, the rangefinder often communicates with the host computer or control system via RS-232.

The CD3232 supports EIA/TIA-232 standards, operates at 3.3V or 5V, and delivers a maximum communication rate of 120kbps. Featuring an integrated charge pump, it requires no external negative power supply and offers enhanced ESD protection.

In the system, the CD3232 module converts between MCU TTL signals and RS-232 standard signals, enabling parameter configuration, data export, and field maintenance to meet industrial-grade communication interface requirements.

5. Main Control and USB Interface: CD9002

The system's main controller utilizes the CD9002 USB microcontroller, which is based on an enhanced 8051 core. It supports operating frequencies of 12MHz, 24MHz, and 48MHz, with 16KB SRAM integrated on the chip. The device operates at 3.3V with a 5V input voltage tolerance, features a built-in USB2.0 transceiver for full-speed and high-speed modes, and provides UART, I2C, and multi-channel GPIO interfaces.

The CD9002 laser rangefinder features an integrated USB interface, enabling direct PC connection for data transfer, system upgrades, and debugging.

The solution achieves a balance between performance, power consumption, and system integrity, providing a mature, mass-production-ready, and domestically replaceable integrated solution for laser ranging equipment in engineering surveying, industrial inspection, and portable applications.

Technical Statement: All product specifications herein shall be subject to the latest version published by ChisynV Microelectronics.