DATA SHEET SMS7630-061: Surface-Mount, 0201 Zero Bias Silicon Schottky Detector Diode Applications Sensitive RF and microwave detector circuits Sampling and mixer circuits High volume wireless systems WiFi and mobile devices Low-noise receivers for high sensitivity ID tags Radio designs Description Features The SMS7630-061 is a silicon, zero bias Schottky detector diode with an ultra-miniature 0201 footprint and very low barrier height. Extremely low barrier height This P-type diode can be used for sensitive video detector circuits Suitable for use above 26 GHz and sampling circuits. Low parasitic impedance: CP < 0.05 pF, LS < 0.2 nH The low barrier height results in good detector sensitivity without Low profile, ultra-miniature 0201 SMT package the need for external bias current. The low junction capacitance of (MSL1, 260 C per JEDEC J-STD-020) this diode makes it an excellent detector at frequencies up to 26 GHz and higher. A pinout diagram for the SMS7630-061 is shown in Figure 1. TM Skyworks Green products are compliant with all applicable legislation and are halogen-free. For additional information, refer to Skyworks TM Denition of Green , document number SQ040074. Bottom View Top View Y1952 Figure 1. SMS7630-061 Pinout Diagram Skyworks Solutions, Inc. Phone 781 376-3000 Fax 781 376-3100 sales skyworksinc.com www.skyworksinc.com 201295I Skyworks Proprietary Information Products and Product Information are Subject to Change Without Notice July 26, 2019 1 /4 /4 DATA SHEET SMS7630-061: SURFACE-MOUNT, 0201 ZERO BIAS SILICON SCHOTTKY DETECTOR DIODE Mixer and Detector Applications 24 GHz Rat-Race Mixer 24 GHz Detector Design A rat-race mixer that uses two SMS7630-061 Schottky diodes is A detector circuit that incorporates an SMS7630-061 Schottky shown in Figure 4. The LO signal (24 GHz) is fed from the right diode and covers the 24 GHz band is shown in Figure 2. The RF side and reaches a rat-race ring. The diodes are positioned 90 arrives on a 50 microstrip line from the left and is shorted to degrees apart from the LO input and are terminated in a stub. GND by a 90 degree line with a stud (GND arrives by a via). Both diodes are connected (using a 1206 resistor) and are loaded The cathode of the diode is directly connected to a 24 GHz stub. by a 470 resistor and a 10 pF capacitor. This forms the IF This output is loaded by a 100 k resistor and a 100 pF output (10 MHz). The RF input (24.010 GHz) is directly connected capacitor. The output voltage is fed to a 2-pin, 2.54 mm header. to the rat-race ring. A layout design is illustrated in Figure 5. The circuit was built on a 0.254 mm Rogers RO-4350B substrate The mixer has been tested with the following conditions: and measured with a power-variable 24 GHz source. A layout design is illustrated in Figure 3. LO frequency: 24 GHz LO power: 4 to +6 dBm Input power versus detected voltage for this detector is shown in RF frequency: 24.010 GHz Figure 8. RF power: 30 dBm Typical conversion loss data for this mixer is shown in Figure 9. RF Input /4 /4 SMS7630-061 /4 LO Input 3/4 /4 SMS7630-061 IF Out 100 k 100 pF Figure 2. Schematic of a 24 GHz Detector Design Figure 4. Schematic of a 24 GHz Rat-Race Mixer Figure 5. Layout for a 24 GHz Rat-Race Mixer Figure 3. Layout for a 24 GHz Detector Design Skyworks Solutions, Inc. Phone 781 376-3000 Fax 781 376-3100 sales skyworksinc.com www.skyworksinc.com 2 July 26, 2019 Skyworks Proprietary Information Products and Product Information are Subject to Change Without Notice 201295I