CF5746 Series CMOS Analog Clock IC NIPPON PRECISION CIRCUITS INC. OVERVIEW ■ The CF5746 Series devices are analog clock ICs that derive their timing from a 32 kHz oscillator element. They feature alarm outputs, snooze function and alarm auto-stop function. They can be configured to match a wide variety of clock specifications, alarm functions and motor outputs. FEATURES ■ ■ ■ ■ 32.768 kHz oscillator circuit • Rf and Rd built-in • Oscillator capacitance built-in - CD = 30 pF (typ, excluding CF5746ADC) - CD = 20 pF (typ, CF5746ADC) ■ ■ ■ Alarm outputs • Compatible with electronic sound alarms and motor bells • 4-step increasing volume alarm output (CF5746AAB, ADC, AEA, AFA (AO1), AGA (AO1)) Snooze function • Temporarily stops alarm output and then restarts after a fixed time Debouce circuit (AI/SNZ pin) Test functions • Shortening snooze time and auto-stop time • Increasing motor speed (excluding CF5746BCA) Power-ON clear function 1.5 V supply voltage Chip form SERIES CONFIGURATION XT pin CG (pF) XT pin CG (pF) Active level Motor output Needle period tCY (s) Pulsewidth tPW (ms) Alarm active level Pin type SNZ interface AI/SNZ input SNZ time tSNZ (s) Bounce delay (ms) SNZ release Pins Active level Frequency fPW (Hz) Modulation fCY(Hz) Step 1 Step 2 Duty (%) Step 3 Step 4 Alarm output Step 1 Step 2 Step time Step 3 (s) Built-in capacitance Step 4 IOH min (mA) IOL min (mA) Auto-stop tSTOP (s) Pad layout Other CF5746AAB None 30 HIGH 1 23.4375 LOW 512 Hz Yes 256 31.25 No AO AO HIGH LOW 1 4096 4096 8+1 8+1 12.5 12.5 25 25 50 50 – – 0 to 7 0 to 7 7 to 15 7 to 15 15 to 15 to AS AS 2 C F 5 7 4 6 A BA None 30 HIGH 1 31.25 LOW 512 Hz Yes 256 31.25 No AO1 AO2 HIGH HIGH DC DC – – – – – – – – – – – – – – – – – – – – −0.8 0.8 −0.8 0.8 −0.8 0.8 −0.8 0.8 128 A 128 A CF5746BCA None 30 – 0.125 50% duty LOW 512 Hz Yes 256 31.25 No AO1 AO2 HIGH HIGH DC DC – – – – – – – – – – – – – – – – CF5746ADC None 20 HIGH 1 46.875 HIGH 512 Hz No 256 31.25 No AO AO HIGH LOW 1 2048 2048 8+1 8+1 6.26 6.26 12.5 12.5 25 25 50 50 0 to 3 0 to 3 3 to 7 3 to 7 7 to 31 7 to 31 CF5746AEA None 30 HIGH 1 31.25 LOW 512 Hz Yes 256 31.25 No AO AO HIGH LOW 1 2048 2048 8+1 8+1 6.26 6.26 12.5 12.5 50 50 – – 0 to 7 0 to 7 7 to 15 7 to 15 15 to 15 to AS AS 31 to 31 to – – AS AS −0.8 −0.8 −0.8 −0.8 −0.8 −0.8 0.8 0.8 0.002 0.002 0.8 0.8 128 128 128 B A A Power-ON clear, oscillator Rd and Rf built-in – – C F 5 7 4 6 A FA None 30 HIGH 1 46.875 LOW Pull-up Yes 256 31.25 Yes (2 s) AO1 AO2 HIGH HIGH 2048 DC 8+1 – 12.5 – 25 – 50 – – – 0 to 7 – 7 to 15 – 15 to – AS C F 5 7 4 6 AG A None 30 HIGH 1 31.25 LOW Pull-up Yes 256 31.25 Yes (2 s) AO1 AO2 HIGH HIGH 2048 DC 8+1 – 6.26 – 12.5 – 50 – – – 0 to 7 – 7 to 15 – 15 to – AS – – – – −0.8 0.002 −0.8 0.8 −0.8 0.002 −0.8 0.8 128 A 128 A 1. AO has the opposite polarity to AO only when output (same phase when non-active). 2. AS = auto-stop NIPPON PRECISION CIRCUITS—1 CF5746 Series PAD DIMENSIONS L ayout Dimensions (µm) No. 10 9 8 1 2 7 3 Y 4 6 5 (0, 0) X A (ex. BCA) B (BCA) X Y 1 VDD VSS 166 1210 2 VSS VDD 166 882 3 OUT1 AI/SNZ 166 474 4 AI/SNZ AO1 166 228 5 TEST AO2 444 169 6 OUT2 OUT1 1444 169 7 AO (AO1) OUT2 1444 513 8 AO (AO2) TEST 1444 1219 9 XT XT 1444 1516 10 XT XT 1192 1531 Chip size: 1.61 × 1.70 mm Chip thickness: 400 ± 30 µm Pad size: 100 × 100 µm Chip surface is at V DD potential. BLOCK DIAGRAM TEST 4- Stage Divider XT XT AO(AO2) VSS 11- Stage Divider Output Control OUT1 OUT2 CD AO Duty Control AO(AO1) VDD Alarm Out 4- Stage Divider Snooze Counter Input Control AI/SNZ NIPPON PRECISION CIRCUITS—2 CF5746 Series PIN DESCRIPTION Name Description VDD Positive supply voltage pin VSS Ground pin XT Oscillator input pin XT Oscillator output pin OUT1 Motor output pin 1 OUT2 Motor output pin 2 AI/SNZ Alarm/snooze input pin AO (AO1) Alarm output pin AO (AO2) Alarm output pin TEST Test pin SPECIFICATIONS Absolute Maximum Ratings P arameter Rating Unit V DD − V SS −0.3 to 5.0 V Input voltage range V IN V SS to V DD V Operating temperature range Topr −30 to 70 °C Storage temperature range Tstg −40 to 125 °C Supply voltage range Symbol Condition Electrical Characteristics Ta = 25 °C, VDD = 1.5 V, VSS = 0 V, f0 = 32.768 kHz unless otherwise noted Rating P arameter Operating voltage Symbol V DD Condition Unit min typ max 1.2 – 2.0 V – 1.0 2.0 µA No load Current consumption1 IDD Motor output current IMOT V DD = 1.2 V, RL = 200 Ω ±3.8 – – mA Alarm HIGH-level output current IOH V DD = 1.2 V, VOH = 0.7 V −0.8 −1.5 – mA V DD = 1.2 V, VOL = 0.5 V 0.8 1.5 – mA 2 15 30 µA Alarm LOW-level output current2 Alarm LOW-level output current3 IOL AI/SNZ HIGH-level input voltage V IH V DD − 0.2 – V DD V AI/SNZ LOW-level input voltage V IL V SS – V SS + 0.2 V AI/SNZ HIGH-level output current IOH VOH = V DD − 1.5 V −1 −3 −10 µA AI/SNZ LOW-level output current IOL VOL = V DD + 1.5 V 1 3 10 µA Oscillator frequency stability ∆f/f V DD = 1.2 to 2.0 V – 0.5 1 ppm/0.1 V VDD-to-XT pin built-in capacitance CG – None – pF VDD-to-XT pin built-in capacitance Excluding CF5746ADC – 30 – pF CD CF5746ADC – 20 – pF Excluding CF5746AFA, AGA 1. All pins except the supply and crystal oscillator pins are open. 2. CF5746AAB, ABA, BCA, AEA, AFA (AO2), AGA (AO2) 3. CF5746ADC, AFA (AO1), AGA (AO2) NIPPON PRECISION CIRCUITS—3 CF5746 Series FUNCTIONAL DESCRIPTION Alarm Input/Output AI/SNZ input Deboucing circuit A bounce delay is provided on the AI/SNZ input, regardless of whether the input is LOW or HIGH, to eliminate erroneous operation caused by input bounce. For tON ≤ 31.25 ms, any alarm input or snooze input signal is ignored. For tON ≥ 62.5 ms, the alarm input or snooze input is accepted. Alarm/snooze function An active level on AI/SNZ for ≥ 62.5 ms triggers the alarm function, and alarm operation starts. During alarm output, an active level on AI/SNZ for ≥ 62.5 ms triggers the snooze function. In snooze mode, the alarm output is temporarily stopped for an interval of approximately 256 seconds. After this interval ends, alarm output restarts. CF5746AAB LOW Yes 256 No Alarm active level SNZ interface SNZ time tSNZ(s) SNZ release C F 5 7 4 6 A BA LOW Yes 256 No CF5746BCA LOW Yes 256 No For devices other than the CF5746ADC, the snooze interval count is restarted from 0 if another snooze input is received while in snooze mode. After the snooze interval ends, alarm output restarts. For the CF5746AFA and AGA, an active level on AI/SNZ for ≥ 2 s in snooze mode cancels the snooze and immediately the alarm signal restarts (snooze release). CF5746ADC HIGH No 256 No CF5746AEA LOW Yes 256 No C F 5 7 4 6 A FA LOW Yes 256 Yes (2 s) C F 5 7 4 6 AG A LOW Yes 256 Yes (2 s) CF5746ADC AO AO HIGH LOW 1 2048 2048 8+1 8+1 6.26 6.26 12.5 12.5 25 25 50 50 0 to 3 0 to 3 3 to 7 3 to 7 CF5746AEA AO AO HIGH LOW 1 2048 2048 8+1 8+1 6.26 6.26 12.5 12.5 50 50 – – 0 to 7 0 to 7 7 to 15 7 to 15 C F 5 7 4 6 A FA AO1 AO2 HIGH HIGH 2048 DC 8+1 – 12.5 – 25 – 50 – – – 0 to 7 – 7 to 15 – C F 5 7 4 6 AG A AO1 AO2 HIGH HIGH 2048 DC 8+1 – 6.26 – 12.5 – 50 – – – 0 to 7 – 7 to 15 – Alarm output The CF5746 Series devices feature a combination of various alarm output options to cover a wide range of clock specifications. ■ ■ Step output function (CF5746AAB, ADC, AEA, AFA (AO1), AGA (AO1)) The alarm output increases in volume over 3 or 4 steps, depending on the device selected. Auto-stop function After the alarm has been active continuously for 128 seconds, auto-stop mode becomes active and the output stops. Pins Active level Frequency fPW (Hz) Modulation fCY (Hz) Step 1 Step 2 Duty (%) Step 3 Step 4 Step 1 Step 2 Step time (s) Step 3 Step 4 Auto-stop tSTOP (s) CF5746AAB AO AO HIGH LOW 1 4096 4096 8+1 8+1 12.5 12.5 25 25 50 50 – – 0 to 7 0 to 7 7 to 15 7 to 15 15 to 15 to AS AS 2 – – 128 C F 5 7 4 6 A BA AO1 AO2 HIGH HIGH DC DC – – – – – – – – – – – – – – CF5746BCA AO1 AO2 HIGH HIGH DC DC – – – – – – – – – – – – – – – – – – – – – – 128 128 7 to 31 7 to 31 31 to AS 31 to AS 128 15 to AS 15 to AS 15 to AS – – 128 – 128 – 15 to AS – – – – 128 1. AO has the opposite polarity to AO only when output (same phase when non-active). 2. AS = auto-stop NIPPON PRECISION CIRCUITS—4 CF5746 Series Motor Output The motor output can be matched to the clock using a step needle movement (3 options) or a continuous needle movement (1 option), depending on the device selected. CF5746AAB C F 5 7 4 6 A BA CF5746BCA CF5746ADC CF5746AEA C F 5 7 4 6 A FA C F 5 7 4 6 AG A HIGH 1 23.4375 Step HIGH 1 31.25 Step – 0.125 50% duty Continuous HIGH 1 46.875 Step HIGH 1 31.25 Step HIGH 1 46.875 Step HIGH 1 31.25 Step Active level Needle period tCY (s) Pulsewidth tPW (ms) Movement Test Functions Open-circuit output When AI/SNZ is open circuit, a 512 Hz tone is output (except on the CF5746AFA and AGA). Time shortening function This function is used to reduce the alarm output snooze interval and the auto-stop time. This function is active under either of the following conditions. ■ ■ TEST must be HIGH. OUT1 and OUT2 must both be HIGH. Note that devices other than the CF5746BCA (that is, the step needle movement devices) also have reduced motor output needle periods for the case where TEST is HIGH. Motor output needle period Alarm output Auto-stop time Snooze interval Device 1/4 Unmodulated 1/1024 1/1024 AAB ADC AEA AFA (AO1) AGA (AO1) TEST = HIGH 1/4 – 1/1024 1/1024 ABA AFA (AO2) AGA (AO2) – – 1/1024 1/1024 BCA – Unmodulated 1/1024 1/1024 AAB ADC AEA AFA (AO1) AGA (AO1) OUT1 = OUT2 = HIGH – – 1/1024 1/1024 ABA AFA (AO2) AGA (AO2) – – 1/1024 1/1024 BCA Power-ON Clear Function When power is first applied, the snooze state and alarm auto-stop state are reset to their default values. NIPPON PRECISION CIRCUITS—5 CF5746 Series TIMING DIAGRAMS Motor Output (Step Movement): excluding CF5746BCA Alarm Output: CF5746AAB, ADC, AEA, AFA (AO1), AGA (AO1) tPW OUT1 tPW OUT2 tCY tCY 1sec 1sec AO fPW fCY1 fCY2 AO Motor Output (Continuous Movement): CF5746BCA OUT1 tCY 125msec OUT2 tCY 125msec Alarm Step Output: CF5746AAB, ADC, AEA, AFA (AO1), AGA (AO1) AO AO fPW NIPPON PRECISION CIRCUITS—6 CF5746 Series Alarm/Snooze Input and Alarm Output tON tON 62.5 msec sec 2 *4 AI/ SNZ tON 512Hz *3 tON 62.5 msec 62.5 msec AO, AO1*1 tON t 62.5 msec *5 SNZ (Restart) tSTOP= 128 sec tSNZ= 0 *4 sec tSNZ AO *2 AO1 , AO2 (DC Output) *1: CF5746AFA, AGA *2: CF5746ABA, BCA *3: CF5746AAB, ABA, BCA, ADC, AEA *4: CF5746AFA, AGA *5: CF5746AAB, ABA, BCA, AEA, AFA, AGA Alarm/Snooze Input (Deboucing Circuit) AI/ SNZ (L to H) tCH tON AI/ SNZ (H to L) NIPPON PRECISION CIRCUITS INC. reserves the right to make changes to the products described in this data sheet in order to improve the design or performance and to supply the best possible products. Nippon Precision Circuits Inc. assumes no responsibility for the use of any circuits shown in this data sheet, conveys no license under any patent or other rights, and makes no claim that the circuits are free from patent infringement. Applications for any devices shown in this data sheet are for illustration only and Nippon Precision Circuits Inc. makes no claim or warranty that such applications will be suitable for the use specified without further testing or modification. The products described in this data sheet are not intended to use for the apparatus which influence human lives due to the failure or malfunction of the products. Customers are requested to comply with applicable laws and regulations in effect now and hereinafter, including compliance with export controls on the distribution or dissemination of the products. Customers shall not export, directly or indirectly, any products without first obtaining required licenses and approvals from appropriate government agencies. NIPPON PRECISION CIRCUITS INC. NIPPON PRECISION CIRCUITS INC. 4-3, 2-chome Fukuzumi Koutou-ku, Tokyo 135-8430, Japan Telephone: 03-3642-6661 Facsimile: 03-3642-6698 NC9417AE 1996.04 NIPPON PRECISION CIRCUITS—7