AiP74HC165DA.TB

Wuxi I-CORE Electronics Co., Ltd. rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN e Tab: 835-12 or AiP74HC/HCT165 8-bit Parallel-in, Serial out Shift Register Specification i-c Product Specification Revision History： Version Date 2019-07-A1 2019-07 Description New Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 1/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 1、General Description The AiP74HC/HCT165 is 8-bit serial or parallel-in/serial-out shift registers. The device features a serial — data input (DS), eight parallel data inputs (D0 to D7) and two complementary serial outputs (Q7 and Q7). — When the parallel load input (PL) is LOW the data from D0 to D7 is loaded into the shift register — asynchronously. When PL is HIGH data enters the register serially at DS. When the clock enable input ( — — CE) is LOW data is shifted on the LOW-to-HIGH transitions of the CP input. A HIGH on CE will disable the CP input. Inputs are overvoltage tolerant to 15V. This enables the device to be used in HIGH-to-LOW level shifting applications. i-c or e Features:  Input levels: For AiP74HC165: CMOS level For AiP74HCT165: TTL level  Asynchronous 8-bit parallel load  Synchronous serial input  Specified from -40℃ to +85℃  Packaging information: DIP16/SOP16/TSSOP16 Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 2/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN Ordering Information: Tube packing specifications: Packaging form Type number Marking code Tube quantity Boxed tube quantity Boxed quantity Packing box number Packing quantity DIP16 74HC165 25 PCS/tube 40 tube/box 1000 PCS/box 10 box/pack 10000 PCS/pack AiP74HCT165DA.TB DIP16 74HCT165 25 PCS/tube 40 tube/box 1000 PCS/box 10 box/pack 10000 PCS/pack AiP74HC165SA.TB SOP16 74HC165 200 tube/box 10000 PCS/box 5 box/pack 50000 PCS/pack or 50 PCS/tube SOP16 74HCT165 50 PCS/tube 200 tube/box 10000 PCS/box 5 box/pack 50000 PCS/pack AiP74HC165TA.TB TSSOP16 74HC165 96 PCS/tube 120 tube/box 19200 PCS/box 10 box/pack 192000 PCS/pack 96 PCS/tube 120 tube/box 19200 PCS/box 10 box/pack 192000 PCS/pack i-c AiP74HCT165SA.TB AiP74HCT165TA.TB TSSOP16 Dimensions of plastic enclosure: 19.0mm×6.4mm Pin spacing: 2.54mm Dimensions of plastic enclosure: 19.0mm×6.4mm Pin spacing: 2.54mm Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing: 1.27mm Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing: 1.27mm Dimensions of plastic enclosure: 5.0mm×4.4mm Pin spacing: 0.65mm Dimensions of plastic enclosure: 5.0mm×4.4mm Pin spacing: 0.65mm e AiP74HC165DA.TB Notes 74HCT165 Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 3/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Reel packing specifications: Packaging Type number Marking code form Number:AiP74HC/HCT165-AX-LJ-A016EN Reel quantity Boxed reel quantity Packing quantity 5000 PCS/box 20000 PCS/pack SOP16(1) 74HC165 AiP74HCT165SA.TR SOP16(1) 74HCT165 2500 PCS/reel 5000 PCS/box 20000 PCS/pack AiP74HC165SA.TR SOP16(2) 74HC165 2500 PCS/reel 2500 PCS/box 40000 PCS/pack AiP74HCT165SA.TR SOP16(2) 74HCT165 2500 PCS/reel 2500 PCS/box 40000 PCS/pack AiP74HC165TA.TR TSSOP16 74HC165 2500 PCS/reel 5000 PCS/box 40000 PCS/pack AiP74HCT165TA.TR TSSOP16 74HCT165 2500 PCS/reel 5000 PCS/box 40000 PCS/pack Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing:1.27mm Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing:1.27mm Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing:1.27mm Dimensions of plastic enclosure: 10.0mm×3.9mm Pin spacing:1.27mm Dimensions of plastic enclosure: 5.0mm×4.4mm Pin spacing:0.65mm Dimensions of plastic enclosure: 5.0mm×4.4mm Pin spacing:0.65mm or e AiP74HC165SA.TR 2500 PCS/reel Notes i-c Note: If the physical information is inconsistent with the ordering information, please refer to the actual product. Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 4/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 2、Block Diagram And Pin Description e 2.1、Block Diagram i-c or Figure 1. Logic symbol Figure 2. IEC logic symbol Figure 3. Functional diagram Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 5/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN or e Tab: 835-12 Figure 4. Timing diagram i-c 2.2、Pin Configurations Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 6/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 2.3、Pin Description Pin No. Pin Name Description 1 — PL asynchronous parallel load input (active LOW) 2 3 4 5 6 CP D4 D5 D6 D7 clock input (LOW-to-HIGH, edge-triggered) parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) 7 Q7 complementary output from the last stage 8 9 10 11 12 13 14 GND Q7 DS D0 D1 D2 D3 ground (0V) serial output from the last stage serial data input parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) parallel data input (also referred to as Dn) 15 CE clock enable input (active LOW) 16 VCC supply voltage e — or — 2.4、Function Table Operating mode serial shift hold "do nothing" Output Qn register — PL CE CP DS D0 to D7 Q0 Q1 to Q6 Q7 Q7 L L X X X X X X L H L H L to L H to H L H H L H L ↑ l X L q0 to q5 q6 q6 H L ↑ h X H q0 to q5 q6 q6 H ↑ L l X L q0 to q5 q6 q6 H ↑ L h X H q0 to q5 q6 q6 H H X X X q0 q1 to q6 q7 q7 H X H X X q0 q1 to q6 q7 q7 i-c parallel load Input — Note: H=HIGH voltage level; h=HIGH voltage level one set-up time prior to the LOW-to-HIGH clock transition; L=LOW voltage level; ↑=LOW-to-HIGH clock transition; l=LOW voltage level one set-up time prior to the LOW-to-HIGH clock transition; q=state of the referenced output one set-up time prior to the LOW-to-HIGH clock transition; X=don’t care; ↑=LOW-to-HIGH clock transition. Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 7/ 21 VER：2019-07-A1 — — — — — — — Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 3、Electrical Parameter 3.1、Absolute Maximum Ratings (Voltages are referenced to GND(ground=0V), unless otherwise specified.) Max. +7 Unit V ±20 mA ±20 mA ±25 50 - mA mA mA 500 mW e Parameter Symbol Conditions Min. supply voltage VCC -0.5 input clamping IIK VI < -0.5V or VI > VCC+0.5V current output clamping IOK VO < -0.5V or VO > VCC+0.5V current output current IO -0.5V < VO < VCC+0.5V supply current ICC ground current IGND -50 total power Ptot dissipation storage Tstg -65 temperature DIP 245 soldering 10s TL temperature SOP 250 Note: [1] For DIP16 packages: above 70℃ the value of Ptot derates linearly with 12mW/K. [2] For SOP16 packages: above 70℃ the value of Ptot derates linearly with 8mW/K. [3] For (T)SSOP16 packages: above 60℃ the value of Ptot derates linearly with 5.5mW/K. or +150 ℃ ℃ ℃ 3.2、Recommended Operating Conditions Symbol supply voltage input voltage output voltage VCC VI VO input transition rise and fall rate Δt/ΔV ambient temperature Tamb supply voltage input voltage output voltage VCC VI VO input transition rise and fall rate Δt/ΔV ambient temperature Tamb Conditions AiP74HC165 VCC=2.0V VCC=4.5V VCC=6.0V i-c Parameter - AiP74HCT165 VCC=2.0V VCC=4.5V VCC=6.0V - Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 Min. Typ. Max. Unit 2.0 0 0 - 5.0 1.67 - 6.0 VCC VCC 625 139 83 V V V ns/V ns/V ns/V -40 - +85 ℃ 4.5 0 0 - 5.0 1.67 - 5.5 VCC VCC 139 - V V V ns/V ns/V ns/V -40 - +85 ℃ 8/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN Max. Unit 0.5 1.35 1.8 0.1 0.1 0.1 0.26 0.26 V V V V V V V V V V V V V V V V ±0.1 uA 8 uA - pF - V 0.8 V 0.1 0.26 V V V V ±0.1 uA 8.0 uA 126 uA 234 uA - pF i-c or e 3.3、Electrical Characteristics 3.3.1、DC Characteristics 1 (Tamb=25℃, voltages are referenced to GND (ground=0V), unless otherwise specified.) Parameter Symbol Conditions Min. Typ. AiP74HC165 VCC=2.0V 1.5 1.2 HIGH-level VCC=4.5V 3.15 2.4 VIH input voltage VCC=6.0V 4.2 3.2 VCC=2.0V 0.8 LOW-level VIL VCC=4.5V 2.1 input voltage VCC=6.0V 2.8 IO=-20uA; VCC=2.0V 1.9 2.0 IO=-20uA; VCC=4.5V 4.4 4.5 HIGH-level VOH VI = VIH or VIL IO=-20uA; VCC=6.0V 5.9 6.0 output voltage IO=-4.0mA; VCC=4.5V 3.98 4.32 IO=-5.2mA; VCC=6.0V 5.48 5.81 IO=20uA; VCC=2.0V 0 IO=20uA; VCC=4.5V 0 LOW-level VI = VIH or VIL IO=20uA; VCC=6.0V 0 VOL output voltage IO=4.0mA; VCC=4.5V 0.15 IO=5.2mA; VCC=6.0V 0.16 input leakage VI= VCC or GND; II current VCC=6.0V VI= VCC or GND; IO=0A; supply current ICC VCC=6.0V input CI 3.5 capacitance AiP74HCT165 HIGH-level VIH VCC=4.5V to 5.5V 2.0 1.6 input voltage LOW-level VIL VCC=4.5V to 5.5V 1.2 input voltage 4.4 4.5 IO=-20uA HIGH-level VI = VIH or VIL; VOH output voltage VCC=4.5V IO=-4.0mA 3.98 4.32 =20uA; V =4.5V 0 I LOW-level O CC VOL VI = VIH or VIL output voltage IO=5.2mA; VCC=6.0V 0.16 input leakage VI=VCC or GND; II current VCC=6.0V VI=VCC or GND; IO=0A; supply current ICC VCC=6.0V per input pin; Dn and DS inputs 35 VI=VCC-2.1V; additional other inputs at VCC ΔICC supply current — — or GND; 65 CP, CE, and PL inputs VCC=4.5V to 5.5V input 3.5 CI capacitance Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 9/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN Unit V V V V V V V V V V V V V V V V i-c or e 3.3.2、DC Characteristics 2 (Tamb=-40℃ to +85℃, voltages are referenced to GND (ground=0V), unless otherwise specified.) Parameter Symbol Conditions Min. Typ. Max. AiP74HC165 1.5 VCC=2.0V HIGH-level VIH VCC=4.5V 3.15 input voltage VCC=6.0V 4.2 0.5 VCC=2.0V LOW-level VIL VCC=4.5V 1.35 input voltage VCC=6.0V 1.8 IO=-20uA; VCC=2.0V 1.9 IO=-20uA; VCC=4.5V 4.4 HIGH-level VI = VIH or VIL IO=-20uA; VCC=6.0V 5.9 VOH output voltage IO=-4.0mA; VCC=4.5V 3.84 IO=-5.2mA; VCC=6.0V 5.34 IO=20uA; VCC=2.0V 0.1 IO=20uA; VCC=4.5V 0.1 LOW-level VOL VI = VIH or VIL IO=20uA; VCC=6.0V 0.1 output voltage IO=4.0mA; VCC=4.5V 0.33 IO=5.2mA; VCC=6.0V 0.33 input leakage VI=VCC or GND; II ±1 current VCC=6.0V VI=VCC or GND; IO=0A; supply current ICC 80 VCC=6.0V AiP74HCT165 HIGH-level VIH VCC=4.5V to 5.5V 2.0 input voltage LOW-level VIL VCC=4.5V to 5.5V 0.8 input voltage IO=-20uA 4.4 HIGH-level VI = VIH or VIL; VOH output voltage VCC=4.5V IO=-4.0mA 3.84 0.1 IO=20uA; VCC=4.5V LOW-level VOL VI = VIH or VIL output voltage IO=5.2mA; VCC=6.0V 0.33 input leakage VI=VCC or GND; II ±1 current VCC=6.0V VI=VCC or GND; IO=0A; supply current ICC 80 VCC=6.0V per input pin; Dn and DS inputs 157.5 VI=VCC-2.1V; additional ΔICC other inputs at VCC supply current — — or GND; 292.5 CP, CE, and PL inputs VCC=4.5V to 5.5V Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 uA uA V V V V V V uA uA uA uA 10/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 3.3.3、AC Characteristics 1 (Tamb=25℃, GND=0V, CL=50pf, unless otherwise specified.) Symbol tpd transition time tt Min. Typ. Max. Unit 80 16 14 80 16 14 100 20 17 80 16 14 80 16 14 80 16 14 5 5 5 5 5 5 6 30 52 19 16 15 50 18 15 14 36 13 11 10 19 7 6 17 6 5 14 5 4 22 8 6 11 4 3 17 6 5 22 8 6 2 2 2 -17 -6 -5 17 51 165 33 28 165 33 28 120 24 20 75 15 13 - ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns MHz MHz or propagation delay Conditions AiP74HC165 VCC=2.0V — — VCC=4.5V CP, CE to Q7, Q7; VCC=5.0V;CL=15pF see Figure 6 VCC=6.0V VCC=2.0V — — VCC=4.5V PL to Q7, Q7; V =5.0V;C see Figure 7 CC L=15pF VCC=6.0V VCC=2.0V — V CC=4.5V D7 to Q7, Q7; VCC=5.0V;CL=15pF see Figure 8 VCC=6.0V VCC=2.0V — Q7, Q7 output; VCC=4.5V see Figure 6 VCC=6.0V VCC=2.0V CP input HIGH or VCC=4.5V LOW; see Figure 6 VCC=6.0V VCC=2.0V — PL input LOW; VCC=4.5V see Figure 7 VCC=6.0V VCC=2.0V — — PL to CP, CE; VCC=4.5V see Figure 7 VCC=6.0V VCC=2.0V — DS to CP, CE; VCC=4.5V see Figure 9 VCC=6.0V — VCC=2.0V CE to CP and CP to — VCC=4.5V CE; VCC=6.0V see Figure 9 VCC=2.0V — Dn to PL; VCC=4.5V see Figure 10 VCC=6.0V — VCC=2.0V DS to CP, CE and — VCC=4.5V Dn to PL; VCC=6.0V see Figure 9 — VCC=2.0V CE to CP and CP to — V CC=4.5V CE; VCC=6.0V see Figure 9 VCC=2.0V CP input; see Figure 6 VCC=4.5V e Parameter tW recovery time trec set-up time tsu hold time th maximum frequency fmax i-c pulse width Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 11/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 power dissipation capacitance rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN VCC=5.0V;CL=15pF VCC=6.0V per package; VI= GND to VCC CPD AiP74HCT165 VCC=4.5V CP, CE to Q7, Q7; VCC=5.0V;CL=15pF see Figure 6 — — VCC=4.5V PL to Q7, Q7; VCC=5.0V;CL=15pF see Figure 7 — VCC=4.5V D7 to Q7, Q7; V =5.0V;C see Figure 8 CC L=15pF — propagation delay tpd transition time tt — 35 56 61 - MHz MHz - 35 - pF - 17 14 20 17 14 11 34 40 28 - ns ns ns ns ns ns - 7 15 ns — tW recovery time trec VCC=4.5V VCC=4.5V 16 6 - ns PL input; see Figure 7 VCC=4.5V 20 9 - ns PL to CP, CE; see Figure 7 VCC=4.5V 20 8 - ns DS to CP, CE; see Figure 9 VCC=4.5V 20 2 - ns CE; see Figure 9 VCC=4.5V 20 7 - ns Dn to PL; see Figure 10 VCC=4.5V 20 10 - ns VCC=4.5V 7 -1 - ns VCC=4.5V 0 -7 - ns 26 - 44 48 - MHz MHz - 35 - pF e pulse width Q7, Q7 output; see Figure 6 CP input; see Figure 6 — — or — — — set-up time tsu CE to CP and CP to — — — i-c DS to CP, CE and — hold time th — Dn to PL; see Figure 9 CE to CP and CP to — CE; see Figure 9 CP input; see Figure 6 VCC=4.5V maximum fmax frequency VCC=5.0V;CL=15pF power per package; dissipation CPD VI= GND to VCC-1.5V capacitance Note: [1] tpd is the same as tPLH and tPHL. [2] tt is the same as tTHL and tTLH. [3] CPD is used to determine the dynamic power dissipation (PD in uW). PD=(CPD×VCC2×fi×N)+∑(CL×VCC2×fo) where: fi=input frequency in MHz; fo=output frequency in MHz; CL=output load capacitance in pF; Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 12/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN VCC=supply voltage in V; N=number of inputs switching; ∑(CL×VCC2×fo)=sum of outputs. 3.3.4、AC Characteristics 2 (Tamb=-40℃ to +85℃, GND=0V, CL=50pf, unless otherwise specified.) tpd Conditions AiP74HC165 VCC=2.0V — — CP, CE to Q7, Q7; VCC=4.5V see Figure 6 VCC=6.0V V — — CC=2.0V PL to Q7, Q7; VCC=4.5V see Figure 7 VCC=6.0V VCC=2.0V — D7 to Q7, Q7; VCC=4.5V see Figure 8 VCC=6.0V VCC=2.0V — Q7, Q7 output; VCC=4.5V see Figure 6 VCC=6.0V V CC=2.0V CP input HIGH or LOW; VCC=4.5V see Figure 6 VCC=6.0V VCC=2.0V — PL input LOW; VCC=4.5V see Figure 7 VCC=6.0V VCC=2.0V — — PL to CP, CE; VCC=4.5V see Figure 7 VCC=6.0V VCC=2.0V — DS to CP, CE; VCC=4.5V see Figure 9 VCC=6.0V — VCC=2.0V CE to CP and CP to — VCC=4.5V CE; VCC=6.0V see Figure 9 VCC=2.0V — Dn to PL; VCC=4.5V see Figure 10 VCC=6.0V — V CC=2.0V DS to CP, CE and — VCC=4.5V Dn to PL; VCC=6.0V see Figure 9 — VCC=2.0V CE to CP and CP to — VCC=4.5V CE; VCC=6.0V see Figure 9 Min. Typ. Max. Unit 100 20 17 100 20 17 125 25 21 100 20 17 100 20 17 100 20 17 5 5 5 5 5 5 - 205 41 35 205 41 35 150 30 26 95 19 16 - ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns or propagation delay Symbol e Parameter tt pulse width tW i-c transition time recovery time trec set-up time tsu hold time th Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 13/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 maximum frequency rev:B3 VCC=2.0V VCC=4.5V VCC=6.0V AiP74HCT165 CP input; see Figure 6 fmax — propagation delay Number:AiP74HC/HCT165-AX-LJ-A016EN 5 24 28 - - MHz MHz MHz — CP, CE to Q7, Q7; see Figure 6 VCC=4.5V - - 43 ns PL to Q7, Q7; see Figure 7 VCC=4.5V - - 50 ns D7 to Q7, Q7; see Figure 8 VCC=4.5V - - 35 ns Q7, Q7 output; see Figure 6 CP input; see Figure 6 VCC=4.5V - - 19 ns VCC=4.5V 20 - - ns PL input; see Figure 7 VCC=4.5V 25 - - ns PL to CP, CE; see Figure 7 VCC=4.5V 25 - - ns DS to CP, CE; see Figure 9 VCC=4.5V 25 - - ns CE; see Figure 9 VCC=4.5V 25 - - ns Dn to PL; see Figure 10 VCC=4.5V 25 - - ns VCC=4.5V 9 - - ns VCC=4.5V 0 - - ns 21 - - MHz — tpd — — transition time tt pulse width tW recovery time trec e — — — — or — — set-up time tsu CE to CP and CP to — — — DS to CP, CE and — i-c Dn to PL; see Figure 9 hold time th — CE to CP and CP to — CE; see Figure 9 CP input; see Figure 6 maximum fmax VCC=4.5V frequency Note: [1] tpd is the same as tPLH and tPHL. [2] tt is the same as tTHL and tTLH. [3] CPD is used to determine the dynamic power dissipation (PD in uW). PD=(CPD×VCC2×fi×N)+∑(CL×VCC2×fo) where: fi=input frequency in MHz; fo=output frequency in MHz; CL=output load capacitance in pF; VCC=supply voltage in V; N=number of inputs switching; ∑(CL×VCC2×fo)=sum of outputs. Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 14/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 4、Testing Circuit e 4.1、AC Testing Circuit or Figure 5. Test circuit for measuring switching times i-c Definitions for test circuit: CL=load capacitance including jig and probe capacitance. RT=termination resistance should be equal to the output impedance Zo of the pulse generator. RL=Load resistance. S1=Test selection switch. 4.2、AC Testing Waveforms — — Figure 6. The clock (CP) or clock enable (CE) to output (Q7 or Q7) propagation delays, the clock pulse width, the maximum clock frequency and the output transition times Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 15/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN — — e Figure 7. The parallel load (PL) pulse width, the parallel load to output (Q7 or Q7) propagation delays, the — or parallel load to clock (CP) and clock enable (CE) recovery time — — i-c Figure 8. The data input (D7) to output (Q7 or Q7) propagation delays when PL is LOW — Figure 9. The set-up and hold times from the serial data input (DS) to the clock (CP) and clock enable (CE) — inputs, from the clock enable input (CE) to the clock input (CP) and from the clock input (CP) to the clock — enable input (CE) Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 16/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN — e Figure 10. The set-up and hold times from the data inputs (Dn) to the parallel load input (PL) 4.3、Measurement Points Input Type VI VCC 3V VM 0.5×VCC 1.3V or AiP74HC165 AiP74HCT165 Output VM 0.5×VCC 1.3V 4.4、Test Data Type VI VCC 3.0V Load tr , tf 6.0ns 6.0ns CL 15pF, 50pF 15pF, 50pF S1 position RL 1kΩ 1kΩ tPHL, tPLH open open i-c AiP74HC165 AiP74HCT165 Input Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 17/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 5、Package Information i-c or e 5.1、DIP16 Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 18/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN i-c or e 5.2、SOP16 Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 19/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN i-c or e 5.3、TSSOP16 Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 20/ 21 VER：2019-07-A1 Wuxi I-CORE Electronics Co., Ltd. Tab: 835-12 rev:B3 Number:AiP74HC/HCT165-AX-LJ-A016EN 6、Statements And Notes 6.1、The name and content of Hazardous substances or Elements in the product Hazardous substances or Elements Part name Lead and lead compo unds Mercur y and mercur y compo unds Cadm ium and cadmi um comp ounds Hexaval ent chromiu m compoun ds Polybro minated biphenyl s Polybro minate d biphen yl ethers Dibutyl phthala te Butylbe nzyl phthala te Di-2-et hylhex yl phthala te Diisobu tyl phthala te ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ Plastic resin ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ Chip ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ The lead ○ ○ ○ ○ ○ ○ ○ ○ ○ ○ Plastic sheet installed ○ ○ ○ e Lead frame ○ ○ ○ ○ ○ ○ ○ ○：Indicates that the content of hazardous substances or elements in the detection limit of the following the SJ/T11363-2006 standard. ×：Indicates that the content of hazardous substances or elements exceeding the SJ/T11363-2006 Standard limit requirements. or explanation 6.2、Notion Recommended carefully reading this information before the use of this product； The information in this document are subject to change without notice； i-c This information is using to the reference only, the company is not responsible for any loss； The company is not responsible for the any infringement of the third party patents or other rights of the responsibility. Address：Building B4,NO.777,Jianzhu Road,Binhu District,Wuxi City,Jiangsu Province http://www.i-core. cn P.C.：214072 21/ 21 VER：2019-07-A1