A111 – Pulsed Coherent Radar (PCR) Datasheet v2.0 prel.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. A111 Overview The A111 is a radar system based on pulsed coherent radar (PCR) technology and is setting a new benchmark for power consumption and distance accuracy – fully integrated in a small package of 29 mm2. The A111 60 GHz radar system is optimized for high precision and ultra-low power, delivered as a one package solution with integrated Baseband, RF front-end and Antenna in Package (AiP).
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Table of Contents 1 Revision History ............................................................................................................................ 4 2 Description ..................................................................................................................................... 5 2.1 Functional Block Diagram ...................................................................................................
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 1 Revision History Revision Comment V1.0 Released version V1.1 Minor reference correction in chapter 5.1. A111 marking info added in chapter 2. V1.2 Relative phase accuracy added in chapter 6.3 V1.3 Ordering information added in chapter 2. Equation corrected in XTAL chapter 8.1. V1.4 - EU declaration of conformity added, chapter 9.0. Pin configuration alphabetically order corrected, chapter 3. Acconeer Software chapter 7.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 2 Description The A111 is an optimized low-power, high-precision, 60 GHz radar sensor with integrated Baseband, an RF front-end and an Antenna in Package (AIP). The sensor is based on pulsed coherent radar (PCR) technology, featuring a leading-edge patented solution with picosecond time resolution. The A111 is the perfect choice for implementing highaccuracy, high-resolution sensing systems with low-power consumption.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 2.1 Functional Block Diagram A111 One Package Solution A111 Silicon Digital Communication SPI (4) INTERRUPT XIN (ref clk) XOUT mmWave Radio Program memory TX Data memory RX Rx an t. Power 1.8V Single power supply Tx ant. Timing LDOs PLL ENABLE PoR Figure 2.1. The A111 functional block diagram. The A111 silicon is divided into four functional blocks: Power, Digital, Timing and mmWave radio.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 3 Pin Configuration and Functions The below figure shows the A111 pin configuration, top view: 1 A 3 4 5 6 7 8 9 10 NC B NC C D 2 VIO_1a VIO_2a VIO_1b GND VIO_2b E I/O F ENABLE G CLK Analog H J Supply XOUT VBIAS K SPI_SS SPI_CLK VIO_3a SPI_MISO SPI_MOSI INTERRUPT NC XIN VIO_3b Figure 3.1. Pin configuration of the A111 sensor, top view.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Pin Pin name Pin type Description F2, F9 GND Ground Must be connected to solid ground plane F10 ENABLE I/O Must be connected to host MCU available GPIO.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 4 Specifications 4.1 Absolute Maximum Ratings The below table shows the A111 absolute maximum ratings over operating temperature range, on package, unless otherwise noted: Parameter Description Min. Max. Unit VIO_1 (2) 1.8 V RF power supply 0 2.0 V VIO_2 (2) 1.8 V RF power supply 0 2.0 V VIO_3 1.8 V digital power supply 0 2.0 V XIN (1) Clock input port for crystal or reference clock -0.5 1.6 V I/O I/O supply voltage -0.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 4.3 Recommended Operating Conditions The below table shows the A111 recommended operating conditions, on package: Parameter Min. Typ. Max. Unit Operating power supply voltage, VIO_1 1.71 1.8 1.89 V Operating power supply voltage, VIO_2 1.71 1.8 1.89 V Operating power supply voltage, VIO_3 1.71 1.8 1.89 V I/O operating range -0.3 VIO_3+0.3 V XIN operating range (1) -0.3 1.2 V Operating temperature -40 85 ºC Table 4.3.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. The below table shows the A111 electrical AC specification conditions, on package, at TA = 25ºC: Parameter Min. Max. Unit I/O output operating frequency 100 MHz I/O load capacitance 20 pF 80(1) MHz XIN operating frequency Typ. 20 XIN capacitance 0.2 pF Table 4.5 Electrical AC conditions (1) The maximum external reference clock frequency is 80 MHz and the maximum XTAL frequency is 50 MHz. 4.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 5 Timing Requirements 5.1 Serial Peripheral Interface The Serial Peripheral Interface (SPI) is a 4-wire serial bus, used for configuration and reading output from the A111 radar sensor. The A111 radar sensor is an SPI slave device connected to the SPI master, as described in figure 5.1. The A111 allows several devices to be connected on the same SPI bus, with a dedicated slave-select signal. Daisy-chain is not supported.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Parameter Min. Typ. Clock frequency (1) Max. Unit 50 MHz SS setup time 1.0 ns SS hold time 2.0 ns MOSI setup time 1.0 ns MOSI hold time 2.5 ns MISO propagation delay (2) 5.5 ns Table 5.1 SPI timing characteristics (1) The 50 MHz clock frequency requires that the reference clock is at least 20.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 6 Functional Description The below figure shows the A111 system integration with Host MCU: 1.8V single power supply Host MCU SPI x4 ENABLE x1 INTERRUPT x1 A111 Sensor TCXO CLK ref. 20-80 MHz Figure 7.1. System integration The Acconeer software is executed on Host MCU that handles sensor initiation, configuration, sweep acquisition and signal processing.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 6.1 Acconeer Software The Acconeer software has been written in C and is portable to any OS and HW platform. The Acconeer software is executed on Host MCU and delivered as binaries, except for integration software that is delivered as source code. The below figure shows the A111 software offer. Figure 7.2. Acconeer Software offer The RSS (Radar System Software) provides output at two different levels, Service and Detector.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 6.3 Power Up Sequence The power-up sequence is described using the recommended integration shown in the below figure: 1.8V R2 C4 INTERRUPT A111 SPI_SS R1 VIO_2a,b SPI_MISO VIO_3a,b SPI_MOSI VBIAS SPI_CLK XIN ENABLE XOUT C5 C1 C2 C6 C3 GNDs Host VIO_1a,b X1 C7 C8 Figure 7.3. Recommended integration of the A111 radar sensor. The power up sequence is shown in below figure. t1 t2 VIO_3a,b VIO_1-2a,b ENABLE XIN Time Figure 7.4.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. VIO_3a,b must be turned on before or simultaneously with ENABLE and VIO_1-2a,b. ENABLE and VIO_1-2a,b can be turned on in any order and independently of each other. A111 should however not be considered as in state “ON” until all supply voltage levels are stable and ENABLE is high. The time constant t1 in figure 7.4 denotes this time. The actual value of t1 depends on the power supply and the decoupling capacitors used.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 7 Layout Recommendations A111 sensor free space integration should take the following into consideration: • Any material above the sensor should have as low permittivity and loss as possible, e.g. plastic or glass with low permittivity. • To conclude on optimum distance from the sensor, a simulation/measurement investigation is required.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 7.1 Bill of Material (BoM) The below table shows BOM for integration of the A111: Component Value Description C1, C2, C3 100 nF VIO_1, VIO_2, VIO_3 decoupling C4, C5, C6 1 µF VIO_1, VIO_2, VIO_3 decoupling R2 100 kΩ INTERRUPT pull down resistor R1 30 Ω SPI_MISO series resistance (optional) X1 C7, C8 XTAL 24 MHz, Epson TSX-3225 (optional) 8 pF (1) XTAL freq. tuning capacitor (optional) Table 8.2 BOM list (1) See details in chapter 7.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 7.2 XTAL The input clock can origin from a crystal (XTAL), connected to XIN and XOUT. The A111 sensor has a built-in XTAL oscillator and by adding an external XTAL component, as shown in the below figure 8.1, a reference design without any external clock reference supplied is possible. Note however, that the external clock reference still is supported and if used instead of an external XTAL, it is connected to XIN.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 7.3 External clock source The input clock can origin from an external clock source connected to XIN, with XOUT left open. As an example given in table 8.3, maximum phase noise figures are given using 40 MHz external clock reference. Offset frequency (Hz) Min. Typ. Max. Unit 1000 -80 dBc/Hz 10 000 -100 dBc/Hz 100 000 -120 dBc/Hz 1 000 000 -140 dBc/Hz 10 000 000 -155 dBc/Hz Table 8.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 7.4 Power supply The A111 sensor has got three power supplies where the VIO_3 power supply is sensitive to power supply ripple. Power supply ripple on VIO_3 may degrade performance since VIO_3 supplies the internal clock generation blocks. Table 8.4 provides the required power supply ripple specification for VIO_3. Frequency (Hz) Min. Typ. Max. Unit 10 000 18.7 mVpp 100 000 2.6 mVpp 1 000 000 0.26 mVpp 3 000 000 0.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Figure 8.3: Simulated performance with 10mVpp supply ripple with low cost LC supply filter.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 8 Regulatory Approval To be noted is that some regulatory specifications also specify the usage of the sensor, so users of the sensor must check regulatory requirements for their own use case and determine if the regulatory approvals described below are sufficient. 8.1 ETSI Note: EU declaration of conformity is pending. Hereby, Acconeer declares that the A111 sensor is compliant with directive 2014/53/EU. 8.1.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 8.2 FCC Approval Note: FCC approval is pending. Hereby, Acconeer declares that the A111 sensor has modular approval granted by FCC. The A111 sensor meets the title 47 of the Code of Federal Regulations, part 15 section 15.255 for intentional radiators operating in the 57-71 GHz band for the following type of applications. - Field disturbance sensor employed for fixed operations. - Short range device for interactive motion sensing.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 8.2.2 FCC Grant Authorization Equipment authorization - FCC identifier 2AQ6KA1001, pending.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 8.3 Industry Canada Approval Note: Final Industry Canada (IC) approval is pending. The A111 sensor module meets the radio requirements for the 57-64 GHz band for the following type of applications: - field disturbance sensor employed for fixed operations IC certification number: 24388-A111 L’approbation finale Industry Canada (IC) reste en instance.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. 9 Mechanical Data The A111 is available in fcCSP package for mounting on a substrate. The below table shows mechanical data: Parameter Min. Typ. Max Unit Body X 5.15 5.20 5.25 mm Body Y 5.45 5.50 5.55 mm 0.821 0.899 mm Body Z (height) Ball pitch 0.45 0.50 0.55 mm Ball diameter 0.25 0.30 0.35 mm Ball height 0.15 0.24 mm 50 # Ball count Table 10.1. Mechanical data The A111 footprint is shown in Figure 10.1.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. The physical layout of the A111 sensor is shown in Figure 10.2, 10.3 and 10.4. Figure 10.2. Physical layout of the A111 sensor, top view. Figure 10.3. Physical layout of the A111 sensor, side view.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Primary datum C and seating plane are defined by the spherical crowns of the solder balls. Dimension is measured at the maximum solder ball diameter, parallel to primary datum C. All dimensions and tolerances conform to ASME Y14.5 – 2009. Figure 10.4. Physical layout of the A111 sensor, bottom view. The bottom view shows 50 solder balls. The pitch of the BGA balls is 500 µm, the ball diameter is 300 µm ±5 µm and the collapsed ball height is 0.244 ± 0.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel.
A111 Pulsed Coherent Radar (PCR) Datasheet, v2.0 prel. Disclaimer The information herein is believed to be correct as of the date issued. Acconeer AB (“Acconeer”) will not be responsible for damages of any nature resulting from the use or reliance upon the information contained herein. Acconeer makes no warranties, expressed or implied, of merchantability or fitness for a particular purpose or course of performance or usage of trade.