Crystal Oscillator (SPXO) * Package size (5.0 mm x 3.2 mm x 1.1 mm) * Fundamental mode SPXO * Output: CMOS * Reference weight Typ.52 mg X1G0044510218xx X1G0044510004xx [ 1 ] Product Number / Product Name / Marking (1-1) Product Number / Ordering Code X1G0044510004xx Last 2 digits code(xx) defines Quantity. The standard is "00", 1 000 pcs/Reel. (1-2) Product Name / Model Name SG5032CAN 25.000000 MHz TJGA [ 2 ] Operating Range Parameter Supply voltage Operating temperature range CMOS load condition Symbol VCC GND T_use L_CMOS Specifications Min. 1.60 0 -40 - Typ. - [ 3 ] Frequency Characteristics Parameter Output frequency Frequency tolerance *1 Frequency aging Symbol fo f_tol f_age Unit Max. 3.63 0 +85 15 V V C pF Conditions - (Unless stated otherwise [ 2 ] Operating Range) Specifications Min. -50 -3 Typ. 25.000000 - Unit Max. +50 +3 Conditions MHz - x10-6 x10-6 T_use +25 C, First year *1 Frequency tolerance includes Initial frequency tolerance, Frequency / temperature characteristics, Frequency / voltage coefficient and Frequency / load coefficient. [ 4 ] Electrical Characteristics Parameter (Unless stated otherwise [ 2 ] Operating Range) Symbol Specifications Unit I_std VOH VOL Min. 90 % Vcc - Typ. - Max. 3.0 2.2 2.7 10 % Vcc Rise time tr - - 3.5 ns Fall time tf - - 3.5 ns SYM VIH VIL 45 80 % Vcc - - 55 20 % Vcc 100 3 % V V ns ms Start-up time Current consumption Stand-by current Output voltage Symmetry Input voltage Output disable time (ST) Output enable time (ST) t_str ICC tstp_st tsta_st ms mA A V V Conditions t = 0 at 90 % Vcc No load condition, Vcc = 3.3 V ST = GND, Vcc = 3.3 V Io = -4 mA @Vcc = 3.3 V Io = 4 mA @Vcc = 3.3 V 20 % Vcc to 80 % Vcc Level, L_CMOS = 15 pF, Vcc = 1.8 V 10 % 80 % Vcc to 20 % Vcc Level, L_CMOS = 15 pF, Vcc = 1.8 V 10 % 50 % Vcc Level, L_CMOS 15 pF ST terminal ST terminal ST terminal HIGH LOW ST terminal LOW HIGH [ For other general specifications, please refer to the attached Full Data Sheet below ] 1 / 35 Page 2020/7/24 Crystal oscillator: SG2016 / 3225 / 5032 / 7050CAN & SG-210STF Features Crystal oscillator (SPXO) Frequency: 20 standard frequencies (4 MHz to 72 MHz) Output: CMOS Supply voltage: 1.6 V to 3.63 V Operating temperature: -20 C to +70 C SG2016CAN SG-210STF SG3225CAN (2.0 x 1.6 mm) (2.5 x 2.0 mm) (3.2 x 2.5 mm) -40 C to +105 C SG5032CAN (5.0 x 3.2 mm) SG7050CAN (7.0 x 5.0 mm) Applications IoT, Wearable device Data center, Storage Medical, Industrial automation Description Epson's SGxxxxCAN & SG-210STF are Simple Packaged Crystal Oscillator (SPXO) series with CMOS output. These SPXO's are ideal for variety of applications from IoT, wearables, medical, industrial automation, etc. These SPXO have low current consumption, wide operating voltage from 1.6 V to 3.63 V and wide operating temperature range from -40 C to 85 C, in addition operation up to 105 C is available. These SPXO's are available in five different package size from 2.0 x 1.6 mm to 7.0 x 5.0 mm and available in standard pin out's. Outline Drawing and Terminal Assignment SG2016CAN SG-210STF SG3225CAN SG5032CAN SG7050CAN Terminal Assignment Pin # Connection Function ST terminal ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency : Enable "L" Oscillation stop High impedance : Disable #1 ST #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Page 2 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 1 ] Product Name / Product Number (1-1) SG2016CAN (1) Product Name (Standard Form) SG2016 C AN 25.000000MHz T J H A ModelOutput (C:CMOS)FrequencySupply voltage Frequency toleranceOperating temperatureInternal identification code ("A" is default) Supply voltage Refer to Figure 1 Frequency tolerance / Operating temperature T 1.8 V to 3.3 V Typ. DB 25 x 10-6 / -20 C to +70 C K 2.5 V to 3.3 V Typ. JG 50 x 10-6 / -40 C to +85 C *Figure 1 is on the next page JH 50 x 10-6 / -40 C to +105 C (2) Product Number / Ordering Code Frequency [MHz] 4 8 10 12 12.288 14.7456 16 20 24 24.576 25 26 27 32 33.33 33.3333 40 48 50 72 Frequency tolerance / Operating temperature DB JG JH -6 -6 25 x 10 50 x 10 50 x 10-6 -20 C to +70 C -40 C to +85 C -40 C to +105 C X1G004801003000 X1G004801004900 X1G004801004500 X1G004801004600 X1G004801002900 X1G004801002700 X1G004801005000 X1G004801000700 X1G004801005100 X1G004801005200 X1G004801004400 X1G004801005300 X1G004801005400 X1G004801005500 X1G004801001400 X1G004801005600 X1G004801005700 X1G004801005800 X1G004801001800 X1G004801005900 X1G004801000200 X1G004801004000 X1G004801006000 X1G004801003100 X1G004801002400 X1G004801001200 X1G004801003500 X1G004801000300 X1G004801003900 X1G004801006100 X1G004801002100 X1G004801006200 X1G004801006300 X1G004801006400 X1G004801006500 X1G004801002600 X1G004801006600 X1G004801006700 X1G004801003600 X1G004801006800 X1G004801002000 X1G004801006900 X1G004801007000 X1G004801001300 X1G004801002800 X1G004801007100 X1G004801007200 X1G004801007300 Page 3 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (1-2) SG-210STF (1) Product Name (Standard Form) SG-210 S T F 25.000000MHz Y ModelFunction (S:Standby)Supply voltage FrequencyFrequency tolerance / Operating temperature Frequency tolerance / Operating temperature Supply voltage Refer to Figure 1 S 25 x 10-6 / -20 C to +70 C T 1.8 V to 3.3 V Typ. L 50 x 10-6 / -40 C to +85 C *Figure 1 is on the next page Y 50 x 10-6 / -40 C to +105 C (2) Product Number / Ordering Code Frequency [MHz] 4 8 10 12 12.288 14.7456 16 20 24 24.576 25 26 27 32 33.33 33.3333 40 48 50 72 Frequency tolerance / Operating temperature S L Y -6 -6 25 x 10 50 x 10 50 x 10-6 -20 C to +70 C -40 C to +85 C -40 C to +105 C X1G004171000900 X1G004171029900 X1G004171001500 X1G004171006900 X1G004171001600 X1G004171036500 X1G004171016300 X1G004171001800 X1G004171028000 X1G004171006100 X1G004171001900 X1G004171036600 X1G004171002500 X1G004171036700 X1G004171002700 X1G004171015400 X1G004171021800 X1G004171002900 X1G004171023800 X1G004171015600 X1G004171003100 X1G004171019700 X1G004171003200 X1G004171036800 X1G004171007700 X1G004171003300 X1G004171005900 X1G004171003400 X1G004171024400 X1G004171003500 X1G004171025000 X1G004171004000 X1G004171012700 X1G004171011900 X1G004171030000 X1G004171012000 X1G004171007500 X1G004171004500 X1G004171020600 X1G004171007800 X1G004171004600 X1G004171036900 X1G004171007900 X1G004171004700 X1G004171012600 X1G004171037000 X1G004171012400 X1G004171037100 Page 4 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (1-3) SG3225CAN (1) Product Name (Standard Form) SG3225 C AN 25.000000MHz T J H A ModelOutput (C:CMOS)FrequencySupply voltage Frequency toleranceOperating temperatureInternal identification code ("A" is default) Supply voltage Refer to Figure 1 Frequency tolerance / Operating temperature T 1.8 V to 3.3 V Typ. DB 25 x 10-6 / -20 C to +70 C K 2.5 V to 3.3 V Typ. JG 50 x 10-6 / -40 C to +85 C *Figure 1 is on the next page JH 50 x 10-6 / -40 C to +105 C (2) Product Number / Ordering Code Frequency [MHz] 4 8 10 12 12.288 14.7456 16 20 24 24.576 25 26 27 32 33.33 33.3333 40 48 50 72 Frequency tolerance / Operating temperature DB JG JH -6 -6 25 x 10 50 x 10 50 x 10-6 -20 C to +70 C -40 C to +85 C -40 C to +105 C X1G005961001115 X1G005961001215 X1G005961000415 X1G005961001315 X1G005961000515 X1G005961001415 X1G005961001515 X1G005961000615 X1G005961001615 X1G005961001715 X1G005961001815 X1G005961001915 X1G005961002015 X1G005961002115 X1G005961002215 X1G005961002315 X1G005961002415 X1G005961000715 X1G005961002515 X1G005961002615 X1G005961000115 X1G005961002715 X1G005961000815 X1G005961002815 X1G005961002915 X1G005961000215 X1G005961003015 X1G005961003115 X1G005961003215 X1G005961003315 X1G005961003415 X1G005961003515 X1G005961003615 X1G005961003715 X1G005961003815 X1G005961003915 X1G005961004015 X1G005961000915 X1G005961004115 X1G005961004215 X1G005961000315 X1G005961004315 X1G005961004415 X1G005961001015 X1G005961004515 X1G005961004615 X1G005961004715 X1G005961004815 Page 5 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (1-4) SG5032CAN (1) Product Name (Standard Form) SG5032 C AN 25.000000MHz T J H A ModelOutput (C:CMOS)FrequencySupply voltage Frequency toleranceOperating temperatureInternal identification code ("A" is default) Supply voltage Refer to Figure 1 Frequency tolerance / Operating temperature T 1.8 V to 3.3 V Typ. DB 25 x 10-6 / -20 C to +70 C K 2.5 V to 3.3 V Typ. JG 50 x 10-6 / -40 C to +85 C *Figure 1 is on the next page JH 50 x 10-6 / -40 C to +105 C (2) Product Number / Ordering Code Frequency [MHz] 4 8 10 12 12.288 14.7456 16 20 24 24.576 25 26 27 32 33.33 33.3333 40 48 50 72 Frequency tolerance / Operating temperature DB JG JH -6 -6 25 x 10 50 x 10 50 x 10-6 -20 C to +70 C -40 C to +85 C -40 C to +105 C X1G004451003400 X1G004451019600 X1G004451002100 X1G004451019700 X1G004451001300 X1G004451017800 X1G004451019800 X1G004451002800 X1G004451019900 X1G004451020000 X1G004451000100 X1G004451020100 X1G004451001900 X1G004451020200 X1G004451000200 X1G004451020300 X1G004451020400 X1G004451001100 X1G004451020500 X1G004451017200 X1G004451000300 X1G004451020600 X1G004451002900 X1G004451020700 X1G004451009700 X1G004451000400 X1G004451020800 X1G004451008200 X1G004451020900 X1G004451000500 X1G004451021000 X1G004451001400 X1G004451021100 X1G004451021200 X1G004451021300 X1G004451016700 X1G004451021400 X1G004451001200 X1G004451021500 X1G004451014900 X1G004451000700 X1G004451011200 X1G004451011500 X1G004451000800 X1G004451003600 X1G004451021600 X1G004451021700 X1G004451021800 Page 6 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (1-5) SG7050CAN (1) Product Name (Standard Form) SG7050 C AN 25.000000MHz T J H A ModelOutput (C:CMOS)FrequencySupply voltage Frequency toleranceOperating temperatureInternal identification code ("A" is default) Supply voltage Refer to Figure 1 Frequency tolerance / Operating temperature T 1.8 V to 3.3 V Typ. DB 25 x 10-6 / -20 C to +70 C K 2.5 V to 3.3 V Typ. JG 50 x 10-6 / -40 C to +85 C *Figure 1 is on the next page JH 50 x 10-6 / -40 C to +105 C (2) Product Number / Ordering Code Frequency [MHz] 4 8 10 12 12.288 14.7456 16 20 24 24.576 25 26 27 32 33.33 33.3333 40 48 50 72 Frequency tolerance / Operating temperature DB JG JH -6 -6 25 x 10 50 x 10 50 x 10-6 -20 C to +70 C -40 C to +85 C -40 C to +105 C X1G004481005100 X1G004481025200 X1G004481001400 X1G004481025300 X1G004481000500 X1G004481025400 X1G004481025500 X1G004481000600 X1G004481025600 X1G004481025700 X1G004481000100 X1G004481025800 X1G004481002500 X1G004481025900 X1G004481000700 X1G004481026000 X1G004481012800 X1G004481000800 X1G004481026100 X1G004481002200 X1G004481000200 X1G004481026200 X1G004481001600 X1G004481026300 X1G004481011600 X1G004481000300 X1G004481026400 X1G004481003500 X1G004481026500 X1G004481000400 X1G004481026600 X1G004481000900 X1G004481026700 X1G004481017900 X1G004481026800 X1G004481003300 X1G004481026900 X1G004481001500 X1G004481027000 X1G004481022600 X1G004481001100 X1G004481027100 X1G004481011200 X1G004481001200 X1G004481016000 X1G004481027200 X1G004481018300 X1G004481027300 Page 7 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 2 ] Absolute Maximum Ratings Parameter Maximum supply voltage Input voltage Storage temperature range Symbol VCC Vin T_stg Specification Min. -0.3 -0.3 -55 -40 Typ. - Max. 4 VCC + 0.3 +125 +125 Unit V V C C Conditions ST terminal SG2016CAN All other [ 3 ] Operating Range Parameter Symbol VCC Supply voltage Supply voltage GND Operating temperature range (Refer to Figure 1) T_use CMOS load condition L_CMOS Specification Unit Min. Typ. Max. 1.6 - 3.63 V 1.71 - 3.63 V 2.25 - 3.63 V 0.0 -20 -40 -40 - 0.0 +25 +25 +25 - 0.0 +70 +85 +105 15 V C C C pF Conditions fo 50 MHz, T_use = +105 C Max. fo = 72 MHz, T_use = +85 C Max. fo = 72 MHz, T_use = +105 C Max. * Power supply startup time (0 %VCC 90 %VCC) should be more than 150 s * A 0.01 F to a 0.1 F bypass capacitor should be connected between V CC and GND pins located close to the device Vcc[V] 3.63 3.63 105 2.25 2.25 85 Please note that Supply voltage range (VCC) depends on Output frequency(fo) and upper limit of Operating temperature(T_use Max.). 1.71 1.71 1.60 1.60 1.2 4 60 50 75 72 f0[MHz] Figure 1: The upper limit of Operating temperature and the related conditions [ 4 ] Frequency Characteristics Parameter Output frequency (Unless stated otherwise [ 3 ] Operating Range) Symbol fo Specification Min. Typ. Max. 4, 8, 10, 12, 12.288, 14.7456, 16, 20, 24, 24.576, 25, 26, 27, 32, 33.33, 33.3333, 40, 48, 50, 72 -50 - +50 Unit Conditions MHz x10-6 T_use = -20 C to +70 C T_use = -40 C to +105 C -100 +100 x10-6 T_use = -40 C to +85 C *2 +25 C, First year Frequency aging f_age -3 +3 x10-6 *1 Frequency tolerance includes initial frequency tolerance, temperature variation, supply voltage change and load drift. *2 This temperature range is only for fo = 75 MHz Frequency tolerance *1 f_tol Page 8 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 5 ] Electrical Characteristics Parameter Start-up time (Unless stated otherwise [ 3 ] Operating Range) Specification Symbol Min. - t_str Current consumption (No load) VCC = 1.8 V 10 % VCC = 1.8 V 5 % Current consumption (No load) VCC = 2.5 V 10 % ICC Current consumption (No load) VCC = 3.3 V 10 % Stand-by current I_std Output voltage VOH VOL VOH VOL Symmetry Input voltage Output disable time (ST) Output enable time (ST) Max. 3 1.5 1.8 2.1 2.4 1.6 2.0 2.4 2.8 1.8 2.2 2.6 3.0 Unit ms mA mA mA mA mA mA mA mA mA mA mA mA - - 2.1 A 90 % VCC 2.5 2.7 10 % VCC - - 0.4 A A V V V V 45 50 55 % - - 3 ns - - 3.5 ns 80 % Vcc - - 20 % Vcc 100 3 V V ns ms VCC - 0.4 SYM Rise time / Fall time Typ. - tr / tf VIH VIL tstp_st tsta_st Conditions t = 0 at 90 %VCC 1 MHz fo 20 MHz 20 MHz < fo 40 MHz 40 MHz < fo 50 MHz fo = 72 MHz 1 MHz fo 20 MHz 20 MHz < fo 40 MHz 40 MHz < fo 50 MHz fo = 72 MHz 1 MHz fo 20 MHz 20 MHz < fo 40 MHz 40 MHz < fo 50 MHz fo = 72 MHz VCC = 1.8 V 10 % or 5 %, ST = GND VCC = 2.5 V 10 %, ST = GND VCC = 3.3 V 10 %, ST = GND Load current condition 1.8 V 10 % 2.5 V 10 % IOH -1.5 mA -3 mA IOL 1.5 mA 3 mA Load current condition 1.8 V 10 % 2.5 V 10 % IOH -1.5 mA -3 mA IOL 1.5 mA 3 mA 3.3 V 10 % -4 mA 4 mA 3.3 V 10 % -4 mA 4 mA 50 % VCC level, L_CMOS 15 pF VCC = 2.5 V or 3.3 V 10 %, 20 % VCC to 80 % VCC Level, L_CMOS = 15 pF VCC = 1.8 V 10 % or 5 %, 20 % VCC to 80 % VCC Level, L_CMOS = 15 pF ST terminal ST terminal HIGH LOW ST terminal LOW HIGH [ 6 ] Thermal resistance (For reference only) Parameter Junction temperature Junction to case Junction to ambient Symbol Tj jc ja Specification Min. - Typ. 10 15 28 16 23 100 92 79 82 104 Page 9 / 35 Max. +125 - Unit C C/W C/W C/W C/W C/W C/W C/W C/W C/W C/W Conditions SG2016CAN SG-210STF SG3225CAN SG5032CAN SG7050CAN SG2016CAN SG-210STF SG3225CAN SG5032CAN SG7050CAN Spec No : SGxxxxCAN_E_Ver1.94 [ 7 ] Typical Performance Characteristics (For reference only) The following data shows typical performance characteristics (7-1) Frequency / Temperature Characteristics fo = 25 MHz, 25 x 10-6 at -20 to +70 C n = 50 pcs fo = 25 MHz, 50 x 10-6 at -40 to +85 C/+105 C n = 50 pcs Page 10 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-2) Current Consumption No load, T_use = +25 C, Freq. Dependency L_CMOS = 15 pF, T_use = +25 C, Freq. Dependency fo = 20 MHz L_CMOS = 5 pF, Temperature Characteristic T_use = +25 C, Output load(L_CMOS) Characteristics fo = 40 MHz L_CMOS = 5 pF, Temperature Characteristic T_use = +25 C, Output load(L_CMOS) Characteristics fo = 72 MHz L_CMOS = 5 pF, Temperature Characteristic T_use = +25 C, Output load(L_CMOS) Characteristics * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. The actual current consumption is the total of the current under the condition of no load and the current to drive the output load (fo x L_CMOS x VCC). To reduce the current consumption, it is effective to use lower frequency, lower supply voltage and lower output load. Page 11 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-3) Rise Time / Fall Time fo = 20 MHz, Rise Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. fo = 20 MHz, Fall Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. Page 12 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-3) Rise Time / Fall Time [cont'd] fo = 40 MHz, Rise Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. fo = 40 MHz, Fall Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. Page 13 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-3) Rise Time / Fall Time [cont'd] fo = 72 MHz, Rise Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. There are some missing data in the graph. It is unmeasurable because of low amplitude under the condition of L_CMOS > 15 pF. fo = 72 MHz, Fall Time 20 % - 80 %VCC, L_CMOS = 15 pF, Temp. Char. 20 % - 80 %VCC, T_use = +25 C, Output load Char. 10 % - 90 %VCC, L_CMOS = 15 pF, Temp. Char. 10 % - 90 %VCC, T_use = +25 C, Output load Char. * Output load condition under L_CMOS > 15 pF (dotted line area) is not guaranteed, and the data is for reference. There are some missing data in the graph. It is unmeasurable because of low amplitude under the condition of L_CMOS > 15 pF. Page 14 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-4) Symmetry fo = 20 MHz 50 %VCC, L_CMOS = 15 pF, Temp. Char. fo = 40 MHz 50 %VCC, L_CMOS = 15 pF, Temp. Char. fo = 72 MHz 50 %VCC, L_CMOS = 15 pF, Temp. Char. Page 15 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-5) Output Voltage fo = 20 MHz VOH, L_CMOS = 15 pF, Temp. Char. VOL, L_CMOS = 15 pF, Temp. Char. fo = 40 MHz VOH, L_CMOS = 15 pF, Temp. Char. VOL, L_CMOS = 15 pF, Temp. Char. fo = 72 MHz VOH, L_CMOS = 15 pF, Temp. Char. VOL, L_CMOS = 15 pF, Temp. Char. Page 16 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-6) Phase Noise, Phase Jitter, and Jitter fo = 20 MHz VCC = 2.5 V, T_use = +25 C 0 0 -20 -20 -40 -40 Phase Noise d c Hz Phase Noise d c Hz VCC = 3.3 V, T_use = +25 C -60 -80 -100 -120 -140 -160 -60 -80 -100 -120 -140 -160 -180 -180 1 10 100 1k 10k 100k 1M 10M 100M 1 10 100 Offset fre uency Hz 1k 10k 100k 1M 10M 100M Offset fre uency Hz VCC = 1.8 V, T_use = +25 C Phase Jitter (Offset frequency: 12 kHz to 5 MHz) VCC Phase Jitter 0.31 ps 3.3 V 0.31 ps 2.5 V 0.32 ps 1.8 V 0 Phase Noise d c Hz -20 -40 -60 -80 -100 -120 -140 Jitter (T_use = +25 C, VCC = 3.3 V) Total jitter (BER = 10-12) 31.3 ps RMS jitter 1.8 ps Peak to peak jitter 15 ps -160 -180 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz fo = 40 MHz VCC = 2.5 V, T_use = +25 C 0 0 -20 -20 -40 -40 Phase Noise d c Hz Phase Noise d c Hz VCC = 3.3 V, T_use = +25 C -60 -80 -100 -120 -140 -160 -60 -80 -100 -120 -140 -160 -180 -180 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz VCC = 1.8 V, T_use = +25 C Phase Jitter (Offset frequency: 12 kHz to 20 MHz) VCC Phase Jitter 0.24 ps 3.3 V 0.26 ps 2.5 V 0.32 ps 1.8 V 0 Phase Noise d c Hz -20 -40 -60 -80 -100 -120 -140 -160 -180 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz Page 17 / 35 Jitter (T_use = +25 C, VCC = 3.3 V) Total jitter (BER = 10-12) 22.3 ps RMS jitter 1.8 ps Peak to peak jitter 16 ps Spec No : SGxxxxCAN_E_Ver1.94 (7-6) Phase Noise and Phase Jitter [cont'd] fo = 72 MHz VCC = 2.5 V, T_use = +25 C 0 0 -20 -20 -40 -40 Phase Noise d c Hz Phase Noise d c Hz VCC = 3.3 V, T_use = +25 C -60 -80 -100 -120 -140 -160 -60 -80 -100 -120 -140 -160 -180 -180 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz VCC = 1.8 V, T_use = +25 C Phase Jitter (Offset frequency: 12 kHz to 20 MHz) VCC Phase Jitter 0.16 ps 3.3 V 0.17 ps 2.5 V 0.20 ps 1.8 V 0 Phase Noise d c Hz -20 -40 -60 -80 -100 -120 -140 -160 -180 1 10 100 1k 10k 100k 1M 10M 100M Offset fre uency Hz Page 18 / 35 Jitter (T_use = +25 C, VCC = 3.3 V) Total jitter (BER = 10-12) 21.8 ps RMS jitter 1.8 ps Peak to peak jitter 16 ps Spec No : SGxxxxCAN_E_Ver1.94 (7-7) Output Waveform fo = 20 MHz VCC = 3.3 V, L_CMOS = 15 pF, T_use = +25 C VCC = 2.5 V, L_CMOS = 15 pF, T_use = +25 C VCC = 1.8 V, L_CMOS = 15 pF, T_use = +25 C fo = 40 MHz VCC = 3.3 V, L_CMOS = 15 pF, T_use = +25 C VCC = 2.5 V, L_CMOS = 15 pF, T_use = +25 C VCC = 1.8 V, L_CMOS = 15 pF, T_use = +25 C Page 19 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (7-7) Output Waveform [cont'd] fo = 72 MHz VCC = 3.3 V, L_CMOS = 15 pF, T_use = +25 C VCC = 2.5 V, L_CMOS = 15 pF, T_use = +25 C VCC = 1.8 V, L_CMOS = 15 pF, T_use = +25 C Page 20 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 8 ] Test Circuit (8-1) Waveform Observation Switch VCC ST by-pass capacitor supply Test Point GND OUT L_CMOS (8-2) Current Consumption Test Switch VCC ST A by-pass capacitor supply GND OUT Test Point *Standby current test should be ST = GND. (8-3) Condition (1) Oscilloscope The bandwidth should be minimum 5 times wider than measurement frequency The probe ground should be placed closely to the test point and the lead length should be as short as possible * It is recommended to use miniature socket. (Don't use earth lead.) (2) L_CMOS includes probe capacitance. (3) A 0.01 F to a 0.1 F bypass capacitor should be connected between VCC and GND pins located close to the device (4) Use a current meter with a low internal impedance (5) Power Supply Power supply startup time (0 %VCC 90 %VCC) should be more than 150 s Power supply impedance should be as low as possible Page 21 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (8-4) Timing Chart (1) Output Waveform and Level (2) Output Frequency Timing t_str Output Stable 90 %VCC VCC 0V OUT 0V (3) ST Function and Timing ST Terminal Osc. circuit Output status "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable VIH Enable ST VIL *1 tstp_st Disable *2 tsta_st High impedance OUT *1 The period from ST = VIL to OUT = High impedance (Disable) *2 The period from ST = VIH to OUT = Enable * Judge of starting output: VOH 80 %VCC, VOL 20 %Vcc, fout is within fo 1 000 x 10-6 * ST terminal voltage level should not exceed supply voltage when using ST function. Please note that ST rise time should not exceed supply voltage rise time at the start-up. Page 22 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 9 ] Outline Drawing and Recommended Footprint (9-1) SG2016CAN Units: mm Terminal coating : Au plating For stable operation, it is recommended that 0.01 F to 0.1 F bypass capacitors should be connected between VCC and GND and placed as close to the VCC pin as possible. Reference Weight Typ.: 9.9 mg Terminal Assignment Pin # Connection Function ST terminal ST #1 ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Marking Frequency tolerance / Operating temperature Frequency [MHz] Location of Pin #1 Production lot number Model Page 23 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (9-2) SG-210STF Units: mm Terminal coating : Au plating For stable operation, it is recommended that 0.01 F to 0.1 F bypass capacitors should be connected between VCC and GND and placed as close to the VCC pin as possible. Reference Weight Typ.: 14 mg Terminal Assignment Pin # Connection Function ST terminal #1 ST ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Marking Frequency [MHz] Production lot number Location of Pin #1 Model Page 24 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (9-3) SG3225CAN Units: mm Terminal coating : Au plating For stable operation, it is recommended that 0.01 F to 0.1 F bypass capacitors should be connected between VCC and GND and placed as close to the VCC pin as possible. Reference Weight Typ.: 25 mg Terminal Assignment Pin # Connection Function ST terminal ST #1 ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Marking Lot code / Operating temperature Frequency [MHz] Location of Pin #1 Production lot number Model Page 25 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (9-4) SG5032CAN Units: mm Terminal coating : Au plating For stable operation, it is recommended that 0.01 F to 0.1 F bypass capacitors should be connected between VCC and GND and placed as close to the VCC pin as possible. Reference Weight Typ.: 52 mg Terminal Assignment Pin # Connection Function ST terminal ST #1 ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Marking Frequency [MHz] Symbol Location of Pin #1 Production lot number Model Page 26 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (9-5) SG7050CAN Units: mm Terminal coating : Au plating For stable operation, it is recommended that 0.01 F to 0.1 F bypass capacitors should be connected between VCC and GND and placed as close to the VCC pin as possible. Reference Weight Typ.: 147 mg Terminal Assignment Pin # Connection Function ST terminal ST function Osc. Circuit Output "H" or OPEN Oscillation Specified frequency: Enable "L" Oscillation stop High impedance: Disable #1 ST #2 GND GND terminal #3 OUT Output terminal #4 VCC VCC terminal Marking Frequency [MHz] Symbol Location of Pin #1 Production lot number Model Page 27 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 10 ] Moisture Sensitivity Level and Electro-Static Discharge Ratings (10-1) Moisture Sensitivity Level (MSL) Specification Conditions Parameter LEVEL 1 IPC/JEDEC J-STD-020D.1 MSL (10-2) Electro-Static Discharge (ESD) Specification Parameter 2 000 V Min. HBM 200 V Min. MM 750 V Min CDM Conditions EIAJ ED-4701-1 C111A, 100 pF, 1.5 k, 3 times EIAJ ED-4701-1 C111, 200 pF, 0 , 1 time AEC-Q100-011 (DCDM) * only for SG2016CAN (10-3) Latch-Up Parameter Latch-up EIAJ ED-4701-1 C113 Specification 100 mA Min. Conditions [ 11 ] Reflow Profiles IPC/JEDEC J-STD-020D.1 Page 28 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 12 ] Packing Information (12-1) SG2016CAN (1) Packing Quantity The last two digits of the Product Number ( X1G004801xxxxxx) are a code that defines the packing quantity. The standard is "00" for a 3 000 pcs/Reel. (2) Taping Specification Subject to EIA-481, IEC-60286 and JIS C0806 1) Tape Dimensions Carrier Tape Material: PS (Polystyrene) Top Tape Material: PET (Polyethylene Terephthalate) +PE (Polyethylene) 2 .250 .1 4 .00 .1 8 .00 .2 Epson Epson 1 .0 0 .250 .05 3 .50 .1 +0 .1 1 .5 0 2 .00 .1 1 .00 .1 1 .750 .1 4 .0 0 .1 Units: mm +0 .1 0 1 .850 .1 User direction of feed 2) Reel Dimensions Center Material: PS (Polystyrene) Reel Material: PS (Polystyrene) Units: mm 11.41.0 180.0 60.0 13.00.2 9.00.3 2.0 0 . 5 3) Storage Environment We recommend to keep less than +30 C and 85 %RH of humidity in a packed condition, and to use it less than 6 months after delivery. Page 29 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (12-2) SG-210STF (1) Packing Quantity The last two digits of the Product Number ( X1G004171xxxxxx) are a code that defines the packing quantity. The standard is "00" for a 3 000 pcs/Reel. (2) Taping Specification Subject to EIA-481, IEC-60286 and JIS C0806 1) Tape Dimensions Carrier Tape Material: PS (Polystyrene) Top Tape Material: PET (Polyethylene Terephthalate) +PE (Polyethylene) 4.00.1 Epson Epson 1.0+0.1/-0 1.150.1 0.250.005 2.80.1 4.00.1 8.00.2 2.00.1 3.50.1 +0.1 1.5 -0 1.750.1 10 P: 400.1 Units: mm User direction of feed 2.30.1 2) Reel Dimensions Center Material: PS (Polystyrene) Reel Material: PS (Polystyrene) Units: mm 11.41.0 +0 180.0 -3.0 60.0 13.00.2 9.00.3 +0.3 2.0-0 3) Storage Environment We recommend to keep less than +30 C and 85 %RH of humidity in a packed condition, and to use it less than 6 months after delivery. Page 30 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (12-3) SG3225CAN (1) Packing Quantity The last two digits of the Product Number ( X1G005961xxxxxx) are a code that defines the packing quantity. The standard is "15" for a 2 000 pcs/Reel. (2) Taping Specification Subject to EIA-481, IEC-60286 and JIS C0806 1) Tape Dimensions Carrier Tape Material: PS (Polystyrene) Top Tape Material: PET (Polyethylene Terephthalate) +PE (Polyethylene) 4.00.1 4.00.1 Epson Epson 1.00.1 3.50.1 -0 1.40.1 0.250.05 3.50.1 2.00.1 8.00.2 +0. 1.55 1 1.750.1 10 P: 400.1 Units: mm 2.80.1 User direction of feed 2) Reel Dimensions Center Material: PS (Polystyrene) Reel Material: PS (Polystyrene) Units: mm 11.41.0 +0 180.0 -3.0 60.0 13.00.2 9.00.3 +0.3 2.0-0 3) Storage Environment We recommend to keep less than +30 C and 85 %RH of humidity in a packed condition, and to use it less than 6 months after delivery. Page 31 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (12-4) SG5032CAN (1) Packing Quantity The last two digits of the Product Number ( X1G004451xxxxxx) are a code that defines the packing quantity. The standard is "00" for a 1 000 pcs/Reel. (2) Taping Specification Subject to EIA-481, IEC-60286 and JIS C0806 1) Tape Dimensions Carrier Tape Material: PS (Polystyrene) Top Tape Material: PET (Polyethylene Terephthalate) +PE (Polyethylene) A Units: mm User direction of feed B D Carrier tape E Epson Epson Top tape F C Symbol Value A 1.5 +0.1/-0 B 4.00.1 C 8.00.1 D 7.250.2 E 12.00.2 F 1.400.1 2) Reel Dimensions Center Material: PS (Polystyrene) Reel Material: PS (Polystyrene) Units: mm 1802 601 13.01.0 20.2 3) Storage Environment We recommend to keep less than +30 C and 85 %RH of humidity in a packed condition, and to use it less than 6 months after delivery. Page 32 / 35 Spec No : SGxxxxCAN_E_Ver1.94 (12-5) SG7050CAN (1) Packing Quantity The last two digits of the Product Number ( X1G004481xxxxxx) are a code that defines the packing quantity. The standard is "00" for a 1 000 pcs/Reel. (2) Taping Specification Subject to EIA-481, IEC-60286 and JIS C0806 1) Tape Dimensions Carrier Tape Material: PS (Polystyrene) Top Tape Material: PET (Polyethylene Terephthalate) +PE (Polyethylene) User direction of feed Carrier tape Epson Epson 16.0 4.0 9.25 1.5 Units: mm Top tape 2.3 8.0 2) Reel Dimensions Center Material: PS (Polystyrene) Reel Material: PS (Polystyrene) Units: mm 3) Storage Environment We recommend to keep less than +30 C and 85 %RH of humidity in a packed condition, and to use it less than 6 months after delivery. Page 33 / 35 Spec No : SGxxxxCAN_E_Ver1.94 [ 13 ] Handling Precautions Prior to using this product, please carefully read the section entitled "Precautions" on our Web site (https://www5.epsondevice.com/en/information/#precaution) for instructions on how to handle and use the product properly to ensure optimal performance of the product in your equipment. Before using the product under any conditions other than those specified therein, please consult with us to verify and confirm that the performance of the product will not be negatively affected by use under such conditions. In addition to the foregoing precautions, in order to avoid the deteriorating performance of the product, we strongly recommend that you DO NOT use the product under ANY of the following conditions: (1) Mounting the product on a board using water-soluble solder flux and using the product without removing the residue of the flux completely from the board. The residue of such flux that is soluble in water or water-soluble cleaning agent, especially the residues which contains active halogens, will negatively affect the performance and reliability of the product. (2) Using the product in any manner that will result in any shock or impact to the product. (3) Using the product in places where the product is exposed to water, chemicals, organic solvent, sunlight, dust, corrosive gasses, or other materials. (4) Using the product in places where the product is exposed to static electricity or electromagnetic waves. (5) Applying ultrasonic cleaning without advance verification and confirmation that the product will not be affected by such a cleaning process, because it may damage the crystal, (6) Using the product under any other conditions that may negatively affect the performance and/or reliability of the product. (7) Power supply with ripple may cause of incorrect operation or degradation of phase noise characteristics, so please evaluate before use. (8) Supply voltage should be increased monotonically. In addition, please do not power on at midpoint potential since that may cause malfunction or not output. (9) Frequency aging is from environmental tests results to the expectation of the amount of the frequency variation. This doesn't guarantee the product-life cycle. Should any customer use the product in any manner contrary to the precautions and/or advice herein, such use shall be done at the customer's own risk. Page 34 / 35 Spec No : SGxxxxCAN_E_Ver1.94 PROMOTION OF ENVIRONMENTAL MANAGEMENT SYSTEM CONFORMING TO INTERNATIONAL STANDARDS At Seiko Epson, all environmental initiatives operate under the Plan-Do-Check-Action (PDCA) cycle designed to achieve continuous improvements. The environmental management system (EMS) operates under the ISO 14001 environmental management standard. All of our major manufacturing and non-manufacturing sites, in Japan and overseas, completed the acquisition of ISO 14001 certification. ISO 14000 is an international standard for environmental management that was established by the International Standards Organization in 1996 against the background of growing concern regarding global warming, destruction of the ozone layer, and global deforestation. WORKING FOR HIGH QUALITY In order provide high quality and reliable products and services than meet customer needs, Seiko Epson made early efforts towards obtaining ISO9000 series certification and has acquired ISO9001 for all business establishments in Japan and abroad. We have also acquired IATF 16949 certification that is requested strongly by major manufacturers as standard. IATF 16949 is the international standard that added the sector-specific supplemental requirements for automotive industry based on ISO9001. Explanation of marks used in this datasheet Pb free. Complies with EU RoHS directive. *About the products without the Pb-free mark. Contains Pb in products exempted by EU RoHS directive (Contains Pb in sealing glass, high melting temperature type solder or other) NOTICE: PLEASE READ CAREFULLY BELOW BEFORE THE USE OF THIS DOCUMENT (c)Seiko Epson Corporation 2020 1. The content of this document is subject to change without notice. Before purchasing or using Epson products, please contact with sales representative of Seiko Epson Corporation ("Epson") for the latest information and be always sure to check the latest information published on Epson's official web sites and resources. 2. This document may not be copied, reproduced, or used for any other purposes, in whole or in part, without Epson's prior consent. 3. Information provided in this document including, but not limited to application circuits, programs and usage, is for reference purpose only. 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Please be sure to contact our sales representative in advance, if you desire Epson products for Specific Purpose: Space equipment (artificial satellites, rockets, etc.)/ Transportation vehicles and their control equipment (automobiles, aircraft, trains, ships, etc.) / Medical equipment/ Relay equipment to be placed on sea floor/ Power station control equipment / Disaster or crime prevention equipment/Traffic control equipment/ Financial equipment Other applications requiring similar levels of reliability as the above 8. Epson products listed in this document and our associated technologies shall not be used in any equipment or systems that laws and regulations in Japan or any other countries prohibit to manufacture, use or sell. Furthermore, Epson products and our associated technologies shall not be used for the purposes of military weapons development (e.g. mass destruction weapons), military use, or any other military applications. If exporting Epson products or our associated technologies, please be sure to comply with the Foreign Exchange and Foreign Trade Control Act in Japan, Export Administration Regulations in the U.S.A (EAR) and other export-related laws and regulations in Japan and any other countries and to follow their required procedures. 9. Epson assumes no responsibility for any damages (whether direct or indirect) caused by or in relation with your non-compliance with the terms and conditions in this document or for any damages (whether direct or indirect) incurred by any third party that you give, transfer or assign Epson products. 10. For more details or other concerns about this document, please contact our sales representative. 11. Company names and product names listed in this document are trademarks or registered trademarks of their respective companies. Page 35 / 35 Spec No : SGxxxxCAN_E_Ver1.94