SiW1711 VTUNE VREFM_CAP VREFP_CAP VBB_RDY VDD_IO VBB_OUT VBATT_DIG • Single chip IC with 2.4 GHz transceiver and GFSK modem with digital interface to external baseband processor. • Fully compliant with Bluetooth specification 1.1 and 1.2. • Supports multiple external reference clocks or crystal frequencies with onchip reference PLL. • Direct-conversion architecture with no external channel filter or VCO resonator components. • Single-ended RX/TX pins reduce system BOM cost by eliminating a balun. On-chip RX/TX switching eliminates external RX/TX switch. • Typical -85 dBm receiver sensitivity with excellent interference rejection performance. • Class 2 and 3 transmit output power up to +4 dBm with output power control loop for accurate power control. • Hardware AGC dynamically adjusts receiver performance in changing environments. • Low out-of-band spurious emissions prevents interference with mobile phone frequencies. • Option for Class 1 designs with RX/TX switch control and multiple modes of gain control. • On-chip voltage regulation simplifies voltage input requirement. Regulator bypass mode enables use of external regulator. • 1.8 Volt analog and digital core voltages; 1.63 Volt to 3.63 Volt external I/O interface voltage. • Low power consumption in active and standby modes. VBATT_ANA Features VCC_OUT 0 Voltage Regulator and Power Distribution CHG_PUMP BLUETOOTH® RADIO MODEM PLL Control LNA ADC RF_IN 0 90 ADC VCO/ PLL IDAC GFSK MODEM DAC PWR CNTL RX_TX_DATA CD_TXEN 0 90 RF_OUT DRIVER DAC Control XTAL_P/CLK XTAL_N BB_CLK SPI_SS SPI_TXD SPI_RXD ENABLE_RM Clock Generation and Distribution HOP_STROBE RESET_N System Control Logic Serial Programming Interface (SPI) TX_RX_SWITCH Register File SPI_CLK Product Description The SiW1711™ Radio Modem is Silicon Wave's third-generation radio modem for Bluetooth® wireless communications and is based on 0.18µm CMOS technology. This highly integrated transceiver was specifically designed to meet the rigorous RF performance required for integrating Bluetooth into mobile phone applications. The SiW1711 Radio Modem combines a 2.4GHz radio transceiver and Gaussian Frequency Shift Keying (GFSK) modem with digital control functions. The IC also incorporates analog and digital voltage regulators, a reference Phase Lock Loop (PLL) to enable multiple input frequencies, and a power-on-reset (POR) circuit. The SiW1711 Radio Modem uses direct conversion (zero-IF) architecture. This allows digital filtering for excellent interference rejection as compared to low IF solutions, and also results in fewer spurious responses. The receiver has excellent sensitivity due to a low noise RF design combined with an advanced modem design. A fast hardware AGC enables full discovery of any device within the dynamic range of the receiver (solves near-far issues). The transmitter can maintain a stable output power level up to +4dBm for class 2 operation, which in combination with the excellent receiver performance ensures the maximum possible range at the lowest system cost. The device is available in a 32-pin QFN package with 5 x 5 x 1 mm dimensions. Known good die with bumps is also available. Operating temperature range is guaranteed from -40°C to +85°C with available extended high temperature range to 105°C. Ordering Information SiW1711 Bluetooth® Radio Modem Optimum Technology Matching® Applied Si BJT GaAs HBT Si Bi-CMOS SiGe HBT GaInP/HBT GaN HEMT GaAs MESFET 9Si CMOS SiGe Bi-CMOS RF Micro Devices, Inc. 7628 Thorndike Road Greensboro, NC 27409, USA Tel (336) 664 1233 Fax (336) 664 0454 http://www.rfmd.com 60 0047 R00Grf SiW1711 Radio Modem IC DS September 30, 2004 1 of 12 SiW1711 Description The following figure shows the SiW1711 Radio Modem functional block diagram. During the receive process, the radio signal is taken from the single ended RF input pin that feeds into the low noise amplifier (LNA). The signal from the LNA is directly down-converted to I/Q baseband, filtered with an anti-aliasing filter, and converted to digital with a high resolution analog-to-digital converter. The critical channel filtering is done in the digital domain for stable and repeatable performance. The signal is then processed by a high performance GFSK demodulator. The demodulator is programmable to support baseband ICs from multiple OEMs. Within the demodulator, data detection and timing recovery circuits convert the data for transfer to an external device. In addition, the IC has multiple internal self-calibration circuits to maintain stable and repeatable performance from part-to-part as well as over the full temperature range. The IC has two fully integrated regulators: one for the radio (analog regulator) and one for the digital logic (digital regulator). The digital regulator can be used to supply a Bluetooth baseband controller. Note: Both regulators can be bypassed if external regulation is desired. When bypassing the analog regulator, the VBATT_ANA and VCC_OUT pins must be tied together and the external analog voltage (1.8 V) should be applied to the VBATT_ANA pin. When bypassing the digital regulator, the VBATT_DIG pin should be left unconnected and the external digital voltage (1.8 V) should be applied to VBB_OUT pin. The IC also provides power on reset and glitch-free clock start-up. A reference PLL can be enabled to support a number of different reference frequencies. Digital control functions and a programming interface provide radio modem control and a flexible interface to external Bluetooth link controllers. SiW1711 Radio Modem Single-ended LNA and Downconverter ADC Single-ended Driver DAC and Upconverter Reference Clock or Crystal Input Reference PLL Modem Clock Generator XTAL Circuit Analog Regulator GFSK Demodulator GFSK Modulator Radio Programming and Control Baseband Modem I/F & Data SiW1750 or SiW1760 (or any compatible Bluetooth controller) Host I/F SPI Digital Regulator Ext Power Bluetooth Subsystem Using the SiW1711 Radio Modem Radio Interface The RF_IN and RF_OUT signals are combined using a simple matching circuit and then connected to a filter and the antenna. The signals are single-ended to save the cost and space of a balun. An internal power control loop maintains a very stable RF_OUT signal level over the full temperature range and from part to part. This means predictable and repeatable range at any temperature. For class 1 operation, the TX_RX_SWITCH and IDAC signals can be used to control a RX/TX switch and the gain of an external PA. This interface is programmable. Features include control of signal polarity, 3 modes of gain control and full programmability to linearize the PA gain control curve. Modem Interface The modem interface transfers the Bluetooth data between the SiW1711 Radio Modem and an external controller. For reference purposes, the pin description table provides a brief description of typical interface modes. Clock Signals Multiple reference clock frequencies (using either a crystal or an external reference source) can be used as a reference for the RF circuits, to synthesize clocks for most of the internal digital circuits, and to supply external processors with timing signals. Serial Programming Interface (SPI) The serial programming interface (SPI) is used to access the internal registers of the SiW1711 Radio Modem. The SPI is a synchronous serial interface that can be clocked to speeds up to 8 MHz. 2 of 12 60 0047 R00Grf SiW1711 Radio Modem IC DS SiW1711 Power The SiW1711 Radio Modem includes both analog and digital voltage regulators. Input options are based on factors such as voltage source, where internal regulators are used, and I/O voltage. Pin Description The SiW1711 Radio Modem’s radio and modem interface, the serial programming interface (SPI), and a single clock input and supply voltage are required for proper operation. The following table provides detailed listings of pin descriptions arranged by functional groupings. Name Pad Type Radio Interface Signal Description RF_IN Analog RF_OUT Analog IDAC Analog TX_RX_SWITCH CMOS output Modem Interface Description CMOS RX_TX_DATA bi-directional CD_TXEN CMOS bi-directional ENABLE_RM CMOS input HOP_STROBE CMOS input RESET_N CMOS input Description RF signal input into the receiver. RF signal output from the transmitter. Power control to external power amplifier. This output provides a variable current source that can be used to control the external power amp. Leave unconnected if not used. Output signal to indicate the current state of the radio. The polarity is programmable with the default set as: Low=Transmit mode. High=Non-transmit mode. Received data from radio; or transmit data to radio. Dual function carrier detect and transmit enable. This bi-directional signal can be enabled through internal registers. During transmit, this pin can be used as an INPUT to indicate valid transmit data (TXEN). During receive, this pin can be used as an OUTPUT to indicate carrier detect (CD). Input only, output, or bi-directional. Sleep/Wake control signal from baseband controller. Used to command the SiW1711 Radio Modem from IDLE to SLEEP Mode, and to awaken the SiW1711 Radio Modem from SLEEP mode. Signal generated by the baseband to indicate the start of TX or RX ramp-up. Reset for digital circuits only. State machines and internal registers reset to their default state. This signal is an asynchronous input with a minimum pulse width requirement of 10 µs. Clock Signals Description XTAL_P/CLK Analog XTAL_N Analog BB_CLK CMOS output System clock crystal positive input or reference clock input. For additional information see the “Crystal Requirements” and “External Reference Requirements” sections. System clock crystal negative input. If a reference clock frequency is used, this pin should be left unconnected. Selectable clock output to external baseband controller. Five frequencies are supported (in MHz): 12, 13, 16, 32, and 48. BB_CLK stops oscillating when ENABLE_RM is de-asserted (low). Serial Programming Interface Description SPI_TXD CMOS output SPI data output port. SPI_RXD CMOS input SPI data input port. SPI_CLK CMOS input Clock input used for synchronous data transfer on the SPI bus. SPI_SS CMOS input SPI slave select that enables the SiW1711 Radio Modem as the target. Power Signals Description VBATT_ANA Power VBATT_DIG Power VCC_OUT Power VBB_OUT Power VCC Power VDD_IO Power VBB_RDY CMOS output Supply voltage to internal analog voltage regulator. Supply voltage to internal digital voltage regulator. Regulated output from internal analog regulator. Regulated output from internal digital regulator. Supply voltage to on-chip analog circuits. Supply voltage to on-chip I/O interface. I/O pins: BB_CLK, CD_TXEN, ENABLE_RM, HOP_STROBE, RESET_N, RX_TX_DATA, SPI_CLK, SPI_RXD, SPI_SS, SPI_TXD, TX_RX_SWITCH This signal is used to indicate that the internal digital regulator is stable (VBB_OUT). Other I/O Description VREFP_CAP VREFN_CAP VTUNE CHG_PUMP Analog Analog Analog Analog Decoupling capacitor for voltage reference for the internal A/D converter. Decoupling capacitor for voltage reference for the internal A/D converter. Pin for reference PLL loop filter. Pin for RF PLL loop filter. Table 1. SiW1711 Radio Modem Pin List 60 0047 R00Grf SiW1711 Radio Modem IC DS 3 of 12 SiW1711 System Specifications Absolute Maximum Ratings Parameter Description Min Max VCC Analog circuit supply voltage -0.3 3.63 VDD_IO I/O supply voltage -0.3 3.63 VBATT_ANA Analog regulator supply voltage -0.3 3.63 VBATT_DIG Digital regulator supply voltage -0.3 3.63 TST Storage temperature -55 +125 RFMAX Maximum RF input level – +5 Absolute maximum ratings indicate limits beyond which the useful life of the device may be impaired or damage may occur. Unit V V V V °C dBm Recommended Operating Conditions Parameter TOP TEOP VBATT_ANA VBATT_DIG VCC VDD_IO Description Operating temperature (industrial grade) Extended operating temperature Supply for internal analog voltage regulator Supply for internal digital voltage regulator Analog supply voltage Digital interface I/O supply voltage Min Max Unit -40 -40 2.3 2.3 1.71 1.62 +85 +105 3.63 3.63 1.89 3.63 °C °C V V V V ESD Rating Symbol Description ESD ESD protection - all pins1, human body model ESD ESD protection - all pins, machine model Rating 2000 V 200 V 1 This device is a high performance RF integrated circuit with an ESD rating of 2,000 volts (HBM conditions per Mil-Std-883, Method 3015). Handling and assembly of this device should only be done using appropriate ESD controlled processes. Electrical Characteristics DC Specification (TOP =+25°C, VDD_IO =3.0V) Symbol Description VIL VIH VOL VOH IOH IOL IILI Input low voltage Input high voltage Output low voltage Output high voltage Output high current Output high current (pins 16, 19) Output low current Output low current (pins 16, 19) Input leakage current AC Characteristics (TOP =+25°C, VDD_IO =3.0V, CLOAD =15pF) Symbol Description tr tf Rise time Rise time (pins 16, 19) Fall time Fall time (pins 16, 19) Current Consumption (TOP =+25°C, VBATT_ANA, VBATT_DIG = 3.3 V) Symbol Description IDD_SLEEP IDD_IDLE IDD_TRANSMIT IDD_RECEIVE 4 of 12 Current during sleep mode Current during idle, synthesizer not running Current during continuous transmit Current during continuous receive Min. Typ. Max. Unit GND-0.1 0.7*VDD_IO GND 0.8*VDD_IO – – – – – – – – – 500 4 500 4 <1 0.3*VDD_IO VDD_IO 0.2*VDD_IO VDD_IO – – – – 1 V V V V µA mA µA mA µA Min. Typ. Max. Unit – – – – – – – – 30 16 24 13 ns ns ns ns Min. Typ. Max. Unit – – – – 8 3 55 68 30 5 65 75 µA mA mA mA 60 0047 R00Grf SiW1711 Radio Modem IC DS SiW1711 Digital Regulator Specification (TOP = 25°C) Parameter Description Min Typ Max Unit 1.55 1.85 2.16 V (I OUT = 0 mA, VBATT_DIG = 2.3 V to 3.63 V) – 8.0 – mV Load regulation (I OUT = 3 mA to 80 mA) – 9.0 – mV Dropout voltage (I OUT = 10 mA) – – 250 mV Output maximum current – – – 80 mA Output voltage (I OUT = 10 mA) Line regulation Quiescent current – – 10 – µA Ripple rejection f RIPPLE = 400 Hz – 40 – dB Max Unit 1.89 – V dB Internal Analog Voltage Regulator Specification (TOP =+25°C, VBATT_ANA = 3.3 V) Parameter Description Min Typ Output voltage (40 mA load) Ripple rejection – – 1.71 – 1.80 20 Min Typ Max Unit 2402 – – 55 2480 100 MHz µs Min Typ Max Unit – – – – 448//0.6 53.1//2.2 267//1.1 23.4//0 – – – – Ω/pF Ω/pF Ω/pF Ω/pF Radio Specification Parameter VCO operating range PLL lock time Description Frequency – RF Impedances Parameter1 RF impedance 1 Description TX On TX Off RX On RX Off The impedance values are for typical samples in 32-pin QFN package. Receiver Specification1 (VBATT_ANA, VBATT_DIG =3.3V, VCC =int. analog reg. output, and nominal2 Bluetooth test conditions) Parameter Receiver sensitivity Maximum usable signal C/I co-channel (0.1% BER) C/I 1MHz (0.1% BER) C/I 2MHz (0.1% BER) C/I ≥3MHz (0.1% BER) Out-of-band blocking3 Intermodulation Receiver spurious emission 1 Description Min Typ Max Unit BER<0.1% – -85.0 -80.0 dBm BER<0.1% -10 0 – dBm Co-channel selectivity – 8.0 11.0 dB Adjacent channel selectivity – -4.0 0 dB 2nd adjacent channel selectivity – -38.0 -35.0 dB 3rd adjacent channel selectivity – -43 -40 dB -10 -27 -27 -10 – – – – – – – – dBm dBm dBm dBm -39 -36 – dBm – – – – -57 -47 dBm dBm 30MHz to 2000MHz 2000MHz to 2399MHz 2498MHz to 3000MHz 3000MHz to 12.75GHz Max interferer level to maintain 0.1% BER, interference signals at 3 MHz and 6 MHz offset. 30MHz to 1GHz 1 GHz to 12.75 GHz Measured with a proper matching circuit without bandpass filter. 2 Nominal and extreme Bluetooth test conditions as defined by the Bluetooth Test and Interoperability Working Group published RF Test Specification 1.1. 3 Out-of-band blocking guaranteed by design. 60 0047 R00Grf SiW1711 Radio Modem IC DS 5 of 12 SiW1711 Transmitter Specification1 (VBATT_ANA, VBATT_DIG = 3.3 V, VCC = int. analog reg. output, and nominal Bluetooth test conditions) Parameter Description Min Typ Max Units Output RF transmit power At maximum power output level Modulation Characteristics2 ∆f1avg ∆f2max (For at least 99.9% of all ∆f2max) ∆f1avg/∆f2avg Initial carrier frequency accuracy – -75.0 One slot packet Two slot packet Five slot packet Max drift rate Bluetooth specification 2MHz offset >3MHz offset 30MHz to 1GHz, operating mode -25.0 -40.0 -40.0 – – – – – – – – Carrier frequency drift 20 dB occupied bandwidth In-band spurious emission Out-of-band spurious emission 1GHz to 12.75GHz, operating mode3 1.8GHz to 1.9GHz 5.15GHz to 5.3GHz -2.0 +2.0 +6.0 dBm 140.0 -115.0 -0.8 -155.0 – – -175.0 – – kHz kHz kHz – +75.0 kHz – – – – 900 -74.0 -74.0 -70.0 -70.0 – – +25.0 +40.0 +40.0 400 1000 -55.0 -55.0 -55.0 -50.0 -62.0 -47.0 kHz kHz kHz Hz/µs kHz dBm dBm dBm dBm dBm dBm 1 Measured with a proper matching circuit without bandpass filter. 2 The modulation characteristic is measured as per test TRM/CA/07/C defined in the Bluetooth Test Specification. 3 Except transmit harmonics. Industrial Temperature Performance1 (VBATT_ANA, VBATT_DIG =3.3V and extreme Bluetooth test conditions) Parameter Receiver sensitivity Output RF transmit power Modulation Characteristics2 Initial carrier frequency accuracy Carrier frequency drift 20 dB occupied bandwidth In-band spurious emission Out-of-band spurious emission Description Typ Max – -85.0 -75.0 dBm At maximum power output level ∆f1avg ∆f2max (For at least 99.9% of all ∆f2max) ∆f1avg/∆f2avg -4.0 140.0 115.0 0.8 +2.0 155.0 – – +6.0 175.0 – – dBm kHz kHz kHz – -75.0 – +75.0 kHz One slot packet Two slot packet Five slot packet Max drift rate Bluetooth specification 2MHz offset >3MHz offset 30MHz to 1GHz, operating mode -25.0 -40.0 -40.0 – – – – – – – – – – – – 900 -74.0 -74.0 -70.0 -70.0 – – +25.0 +40.0 +40.0 +400 1000 -40.0 -55.0 -55.0 -40.0 -62.0 -47.0 kHz kHz kHz Hz/µs kHz dBm dBm dBm dBm dBm dBm BER<0.1% 1GHz to 12.75GHz, operating mode3 1.8GHz to 1.9GHz 5.15GHz to 5.3GHz Min 1 Measured with a proper matching circuit without bandpass filter. 2 The modulation characteristic is measured as per test TRM/CA/07/C defined in the Bluetooth Test Specification. 3 Except transmit harmonics. 6 of 12 Units 60 0047 R00Grf SiW1711 Radio Modem IC DS SiW1711 External Reference Requirements It is possible to provide a number of reference frequencies that are typical on most cellular phones directly into pin 25 (XTAL_P/CLK) of the device. The following reference frequencies (in MHz) can be used: 3.84, 9.6, 12, 12.8, 13, 14.4, 15.36, 16, 16.8, 19.2, 19.68, 19.8, 26, 32, 38.4, and 48 MHz. For other frequencies, please contact applications support. Parameter Phase noise Drive level Description 100 kHz offset 1 kHz offset 10 kHz offset AC coupled amplitude DC coupled low peak voltage DC coupled high peak voltage Min Max Unit – – – 0.5 0 VCC - 0.3 -100 -120 -140 VCC 0.3 VCC dBc/Hz dBc/Hz dBc/Hz VP-P V V Crystal Requirements If using a crystal as the source for the reference frequency, the typical parameters are outlined below. The system clock crystal should operate in a fundamental, parallel resonant mode. Parameter Drive level ESR Description – Effective serial resistance 1 2 Min Typ Max Units 0.5 – 2.0 VP-P – – 150 Ω CO Holder capacitance – 3.0 5.0 pF CL CM Load capacitance2 Motional capacitance – – 12.0 6.0 18.0 – pF fF 1For 32MHz crystal. 2 The actual values for CO and CL are dependent on the crystal manufacturer and can be compensated for by an internal crystal calibration capability. 60 0047 R00Grf SiW1711 Radio Modem IC DS 7 of 12 OU T I N 4 L3 3.3nH C1 8.2 pF C5 1.5pF L5 3.3nH L4 3.3nH C2 2.2pF C16 1uF 1) RF matching circuit based on a typical FR-4 PCB material and standard QFN package. 2) Power supply from external source into internal voltage regulators. 3) C16 and C20 must have 1 ohm < ESR < 10 ohms. 4) L5 value may vary depending upon layout. 5) See Applications for PCB layout requirements. Note: This typical application circuit is suitable for the following conditions: 2 FL1 Murata Filter L5 18nH C9 2.7pF L2 3.9nH C19 1pF VDD_A C8 2.7pF 0.1uF C15 0.1uF C14 C23 180pF R5 47K C22 22pF 8 7 6 5 4 3 2 1 CHG_PUMP VCC VCC VBATT_ANA VCC_OUT VREFN_CAP VREFP_CAP IDAC U1 L1 15nH 9 ANTENNA 8.2pF 32 VCC ENABLE_RM 31 RF_IN 30 SiW1711 RESET_N 11 SPI_RXD 12 SPI_CLK 13 TX_RX_SWITC H 10 VCC 29 RF_OUT 28 VCC 27 VTUNE 26 15 SPI_TXD 14 VCC VDD_IO 25 XTAL_N C11 .01uF VBB_OUT VBATT_DIG RX_TX_DATA VBB_RDY CD_TXEN SPI_SS HOP_STROBE XTAL_P/CLK BB_CLK 8 of 12 16 C3 17 18 19 20 21 22 23 24 C20 1uF VDD_IO VDD_D 1 ENABLE_RM RESET_N SPI_MOSI SPI_CLK SPI_MISO BB_CLK RX_TX_DATA VBB_RDY CD_TX_EN SPI_SELECT HOP_STROBE C13 18pF Y1 OSC, CRYSTAL 32MHz C12 18pF 3 SiW1711 Radio Modem Application Circuit 60 0047 R00Grf SiW1711 Radio Modem IC DS SiW1711 Pin Out VCC RF_IN VCC RF_OUT VCC VTUNE VCC XTAL_P/CLK (Top View) 32 31 30 29 28 27 26 25 IDAC 1 24 XTAL_N VREFP_CAP 2 23 HOP_STROBE VREFN_CAP 3 22 SPI_SS VCC_OUT 4 21 CD_TXEN VBATT_ANA 5 20 VBB_READY VCC 6 19 RX_TX_DATA VCC 7 18 VBATT_DIG 17 VBB_OUT 9 10 11 12 13 14 15 16 TX_RX_SWITCH RESET_N SPI_RXD SPI_CLK SPI_TXD VDD_IO BB_CLK 8 ENABLE_RM CHG_PUMP GROUND PAD ON BOTTOM Pin Assignments Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Pin Name IDAC VREFP_CAP VREFN_CAP VCC_OUT VBATT_ANA VCC VCC CHG_PUMP ENABLE_RM TX_RX_SWITCH RESET_N SPI_RXD SPI_CLK SPI_TXD VDD_IO BB_CLK 60 0047 R00Grf SiW1711 Radio Modem IC DS Pin 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 Pin Name VBB_OUT VBATT_DIG RX_TX_DATA VBB_READY CD_TXEN SPI_SS HOP_STROBE XTAL_N XTAL_P/CLK VCC VTUNE VCC RF_OUT VCC RF_IN VCC 9 of 12 SiW1711 Packaging and Product Marking Package Drawing 32-Pin, QFN Drawing and Dimensions A D B M G PIN 1 CORNER M 0.1 C J 0.1 C A B 25 32 24 PIN 1 I.D. 1 e/2 N K 0.1 C A B e 17 DETAIL N 8 16 32X L 9 EXPOSED DIE ATTACH PAD 32X b 0.1 M B A C VIEW M-M 0.1 C A A2 0.08 C A1 DETAIL G VIEW ROTATED 90° CLOCKWISE Symbol A A1 A2 b D E e J K L 10 of 12 Min 0.8 0 0.75 0.18 3.52 3.52 0.35 Nom – – – 0.25 5 BSC 5 BSC 0.5 BSC 3.62 3.62 0.4 Max 1.0 0.05 1.0 0.3 SEATING PLANE C Notes: 1. Coplanarity applies to leads, corner leads, and die attach pads. 2. All dimensions in mm. 3.72 3.72 0.45 60 0047 R00Grf SiW1711 Radio Modem IC DS SiW1711 Product Marking 32-Pin, QFN Drawing Pin 1 Corner Pin 1 Bar SIW Trace Code Lot Number Part Number SiW1711FIF SiW1711FIF-T13 SiW1711DIF-B SiW1711DIF-T13 1 XXXXXX LLLLL Operational Temperature Range1 Package Ordering Quantity Industrial Industrial Industrial Industrial 32-pin QFN 32-pin QFN KGD with bumps KGD with bumps 490 per tray 5,000 on 13” reel 100 per waffle pack 5,000 on 13” reel Industrial temperature range: -40°C to +85°C 60 0047 R00Grf SiW1711 Radio Modem IC DS 11 of 12 SiW1711 RF Micro Devices believes the furnished information is correct and accurate at the time of this printing. RF Micro Devices reserves the right to make changes to its products without notice and advises customers to verify that the information being used is current. The described products are not designed, manufactured or intended for use in equipment for medical, life support, aircraft control or navigation, or any other applications that require failsafe operation. RF Micro Devices does not assume responsibility for the use of the described products. RF MICRO DEVICES®, RFMD®, Providing Communication Solutions™, the diamond logo design, Silicon Wave, and the SiW product name prefix are trademarks of RFMD, LLC. BLUETOOTH® is a trademark owned by Bluetooth SIG, Inc., U.S.A. and licensed for use by RF Micro Devices, Inc. Manufactured under license from ARM Limited. ARM, ARM7TDMI and the ARM logo are the registered trademarks of ARM Limited in the EU and other countries. All other product, service, and company names are trademarks, registered trademarks or service marks of their respective owners. 12 of 12 60 0047 R00Grf SiW1711 Radio Modem IC DS