HT16562 1/2 Duty VFD Digital Clock Features · VFD display 12 hour clock function · Integrated voltage regulator permits wide 4V to 18V operating voltage range · Directly drive VFD panels at 1/2 Duty cycle · 4.194304MHz crystal oscillation · Four levels of illumination control function · Zero adjust function · 30-pin SSOP package General Description The HT16562 provides direct drive to VFD panels to implement a 12 hour clock function. Obtaining its time base from a 4.194304MHz crystal oscillation source and in having a wide operating voltage due to its internal voltage regulator, the device also contains a host of other features. These include a choice of adjustment modes, including single push increment or 2Hz fast forward functions. Additional features are provided in the form of Blank control, Zero adjustment and four levels of illumination control. Block Diagram V C C V S S V V D D V D D V o lta g e R e g u la to r C ir c u it V D D D D 1 a , 3 a 1 b ,3 b H o u r C o u n te r V H S V V D D D D 1 c , 3 c M in u te C o u n te r S e g m e n t D e c o d e r S e c o n d C o u n te r S e g m e n t O u tp u t D r iv e r Z A D D T im e A d ju s tm e n t A /C 1 d , 3 d 1 e , 3 e 1 f, 3 f 1 g , 3 g 2 a , 2 d 2 b , 4 b , 4 c 2 c , c o l* 2 c , c o l'* M S 2 e 2 f B L A N K 2 g C o lo n F re q u e n c y T E S T 6 4 H z X T O s c illa to r G R 1 F r e q u e n c y D r iv e r C ir c u it G r id D e c o d e r D IM 1 B r ig h tn e s s A d ju s tm e n t D IM 2 G r id O u tp u t D r iv e r X T G R 2 Note: ²*² col indicates a blink colon and col¢ indicates a continuous light colon. Rev. 1.30 1 May 24, 2012 HT16562 Pin Assignment G R 2 1 3 0 G R 1 V C C 2 2 9 2 a , 2 d V D D 3 2 8 2 b , 4 b , 4 c 6 4 H z 4 2 7 2 f T E S T 5 2 6 B L A N K 6 D IM 1 2 5 7 2 4 D IM 2 8 2 3 X T 9 2 2 X T 1 0 G R 1 1 3 0 G R 2 2 a , 2 d 2 2 9 V C C 2 b , 4 b , 4 c 3 2 8 V D D 2 f 4 2 7 6 4 H z 2 c , c o l* 2 c , c o l* 5 2 6 T E S T 2 c , c o l'* 2 c , c o l'* 6 B L A N K 2 e 2 e 2 5 7 2 4 D IM 1 2 g 2 g 8 2 3 1 d , 3 d 9 2 2 D IM 2 1 d , 3 d 2 1 1 e , 3 e 1 e , 3 e 1 0 X T 1 c , 3 c 1 1 2 1 X T V S S 1 1 2 0 1 c , 3 c 2 0 V S S A /C 1 2 1 9 1 g , 3 g 1 g , 3 g 1 2 1 9 A /C Z A 1 3 1 8 1 f, 3 f 1 f, 3 f 1 3 1 8 Z A H S 1 4 1 7 1 b ,3 b 1 b ,3 b 1 4 1 7 H S M S 1 5 1 6 1 a , 3 a 1 a , 3 a 1 5 1 6 M S H T 1 6 5 6 2 3 0 S S O P -A H T 1 6 5 6 2 B 3 0 S S O P -B Note: ²*² col indicates a blink colon and col¢ indicates a continuous light colon. Pin Description Pin Name I/O Description VCC ¾ High voltage power supply pin. VDD O Built-in regulator voltage output pin for the device internal circuits. VSS ¾ Ground pin. DIM1 I DIM2 I A/C I When the A/C pin is low, the internal circuits are reset. The reset pulse width should be more than 2ms. Internally connected to a pull-high resistor. ZA I Zero Adjustment pin. Internally connected to a pull-high resistor. HS I Hour Adjustment pin. Internally connected to a pull-high resistor. MS I Minute Adjustment pin. Internally connected to a pull-high resistor. BLANK I When low the Blank input pin will extinguish the display. Internally connected to a pull-down resistor. XT O XT I TEST I IC test pin - should be left open or kept at a low level 64Hz O 64Hz signal output pin for oscillation frequency adjustment GR1 O GR2 O 1a,3a ~ 2b,4b,4c O Illumination level control pins. Internally connected to pull-down resistors. Crystal oscillator pin Grid output pins for 1/2 duty VFD Rev. 1.30 Segment output pins for 1/2 duty VFD 2 May 24, 2012 HT16562 Approximate Internal Connections A /C , Z A , H S , M S D IM 1 , D IM 2 , T E S T , B L A N K V V C C V 6 4 H z V C C D D D D V D D V S S V S S V S S 1 a , 3 a ~ 1 g , 3 g ; 2 a , 2 d ~ 2 g ; G R 1 , G R 2 X T , X T V X T ( O s c illa to r O u tp u t) C C X T ( O s c illa to r In p u t) V S S V S S Absolute Maximum Ratings Logic Supply Voltage .................VSS-0.3V to VSS+6.5V Driver Supply Voltage .................VSS-0.3V to VSS+20V High Input Voltage .....................VSS-0.3V to VCC+0.3V High Output Voltage ..................VSS-0.3V to VCC+0.3V Logic Input Voltage ....................VSS-0.3V to VDD+0.3V Logic Output Voltage .................VSS-0.3V to VDD+0.3V Driver Output Voltage..........................VSS-0.3V to VCC Driver Output Current (Segment Driver) -10mA to +2mA Driver Output Current (Grid Driver) ......-7mA to +20mA Storage Temperature ..........................-55°C to +150°C Operating Temperature.........................-40°C to +85°C Note: These are stress ratings only. Stresses exceeding the range specified under ²Absolute Maximum Ratings² may cause substantial damage to the device. Functional operation of this device at other conditions beyond those listed in the specification is not implied and prolonged exposure to extreme conditions may affect device reliability. Recommended Operating Conditions Symbol Parameter Min. Typ. Max. Unit VCC Power Supply Voltage 4 ¾ 18 V fOSC Oscillation Frequency ¾ 4.194304 ¾ MHz tOP Operating Temperature -40 ¾ 85 °C Rev. 1.30 3 May 24, 2012 HT16562 D.C. Characteristics VCC=12V, VSS=0V, Ta=-40°C~85°C Test Conditions Symbol Parameter VDD Min. Typ. Max. Unit Conditions VIH High Input Voltage ¾ VCC= 8V to 18V 3.6 ¾ ¾ V VIL Low Input Voltage ¾ VCC= 8V to 18V ¾ ¾ 1 V IIL1 Low-level Input Current 18V Dim1, Dim2, BLANK, Test pins low -1 ¾ ¾ mA IIH1 Hi-level Input Current 18V Dim1, Dim2, BLANK, Test pins high 50 ¾ 200 mA IIL2 Low-level Input Current 18V XT pin low -3 ¾ 3 mA IIH2 Hi-level Input Current 18V XT pin high -3 ¾ 3 mA IIL3 Low-level Input Current 18V A/C, ZA, HS, MS pins low -200 ¾ -50 mA IOL Low-level Output current 12V VOL= 0.5V for 64Hz pin 100 ¾ ¾ mA IOH Hi-level Output current 12V VOL= 4.0V for 64Hz pin ¾ ¾ -100 mA ISOL Driver Output Low Voltage (All Segment outputs) 12V VSOL= 0.7V 15 ¾ ¾ mA ISOH Driver Output High Voltage (All Segment outputs) 12V VSOL= 11.3V ¾ ¾ -1.0 mA IGOL Driver Output Low Voltage (Grid1,Grid2) 12V VSOL= 0.7V 15 ¾ ¾ mA IGOH Driver Output High Voltage (Grid1,Grid2) 12V VSOL= 11.3V ¾ ¾ -15 mA ICC Dynamic Current Consumption fOSC= 4.194304MHz, 12V Oscillator external capacitors = 22pF ¾ ¾ 0.8 mA Rev. 1.30 4 May 24, 2012 HT16562 Functional Description The TEST pin is used during manufacturing for device testing purposes and should not be connected to any external circuitry. VFD Display Driving The display can directly drive VFD signals dynamically and does so at a 1/2 duty cycle rate. The clock will be displayed in a 12-hour format with the hours ranging from 1 to 12 and minutes from 00 to 59. If the most significant numeral is zero then the display will be extinguished. Two illumination level set pins, DIM1 and DIM2, are provided to give control over the display brightness level, as shown in the following table. Switch Pin Name · Grid and segment connections A single 7-segment display is shown below showing the illumination pattern for each numeral. A F E B G D C 7 -S e g m e n ts Operating mode Dim1 Dim2 L L f=256Hz, 1/2 duty (50% display) H L f=256Hz, 1/4 duty (25% display) L H f=256Hz, 1/8 duty (12.5% display) H H f=256Hz, 1/16 duty (6.25% display) Device Functions · Reset As the device is designed for clock applications, four 7-segment displays are required to display the correct time output. The connections for the grids and segments are shown below, however it should be noted that the fourth segment only requires two of its segments to be driven. Additionally it should be noted that the colon can also be illuminated. Although the device is provided with an external reset pin A/C, the device will in fact reset itself when power is applied, eliminating the need for external reset components. The usual provision of an external capacitor is not required as an internal reset capacitor is integrated within the device. · Internal regulator G R 1 G R 2 3 a 3 f 4 b 4 c d ig it4 3 e c o l 3 d 2 f 3 b 3 g 3 c d ig it3 2 e c o l c o lo n d ig it2 1 f 2 b 2 g 2 d An internal regulator function is also integrated within the device providing a stable voltage power supply source for the internal circuits. This allows the device to operate with a wide external power supply ranging from 4V to 18V. 1 a 2 a 2 c 1 e 1 b 1 g 1 d 1 c d ig it1 · Chatter removal The device contains circuits which are connected to input pins HS, MS and ZA to remove chatter of less than 31.25ms. Other Pin Functions The external reset pin A/C is used to reset the internal circuits of the device. When this pin is pulled low the device will be reset, when the pin is allowed to go high, via its internal pull-high resistor, then the display will indicate a ²1:00² output. · Oscillator The basic time base frequency for this device is determined by an external 4.194304MHz crystal. When an external crystal along with two small external capacitors are connected to the two oscillator XT pins, the internal oscillator circuit will ensure generation of the correct time base signals. The oscillation frequency, although determined by the external crystal frequency, will also be influenced by the external capacitors, the crystal inherent capacitance and the residual capacitance of the external PCB tracks. To ensure accurate frequency generation, the crystal specification should be carefully consulted and the external capacitors and crystal should be placed as close to the device as possible. The BLANK pin, if pulled low will extinguish the display. Note that during the time when the BLANK pin is low, the HS, MS and ZA pins will be automatically disabled by the device and have no function. The 64Hz pin allows monitoring of the system frequency to allow frequency adjustments to be executed. As the name suggests, this output pin will continuously output a frequency of 64Hz. Rev. 1.30 5 May 24, 2012 HT16562 minute value is presently less than 30 the only the second and minute values will be reset to zero and the hour value remain unchanged. However if the minute value is presently at a value of 30 or higher then when the zero adjustment function is executed, a carry will be implemented and the hour value will be incremented by one. The following table illustrates a few examples of this operation. Time Adjustment Operation · Hour/minute adjustment Both the minutes and hour displays can be adjusted separately or both together in a fast forward format. The hour set pin, HS, and the minutes set pin, MS, are used to make these adjustments. Both of these pins are connected to internal pull-high resistors. Each time one of these lines is pulled low, the respective hour or minute value will increment by one, also if the line is continuously held low then the respective value will increment automatically at a rate of 2Hz. Both values will increment together if both lines are pulled low simultaneously. Note that no carry functions will be implemented when either the hour or minute value overflows. Zero Adjust Examples Present Time · Zero adjustment A zero adjust function is also included within the device and is controlled by the ZA pin. This pin is connected to an internal pull-high resistor. Pulling this line low will reset both the internal minutes and seconds value, however the way in which the display is reset depends upon the present value of the display. If the After Zero Adjust Hr. Min. Sec. Hr. Min. Sec. 1 30 00 2 00 00 2 00 00 2 00 00 2 29 59 2 00 00 2 30 00 3 00 00 2 59 59 3 00 00 3 29 59 3 00 00 Application Circuits V V C C S W 7 C C V S W 6 C C V E F C C V C C F + V C C S W 5 R 1 2 c , c o l' 2 c , c o l J u m p e r 1 3 2 2 c , c o l 2 a , 2 d T E S T D IM 2 A /C Z A H S S W 2 S W 1 2 f 2 e 2 e 3 d , 1 d 3 e , 1 e 3 e , 1 e 3 c , 1 c 3 c , 1 c 3 g , 1 g 3 g , 1 g 3 f, 1 f 3 f, 1 f 3 b , 1 b 3 b , 1 b 3 a , 1 a 3 a , 1 a G R 1 G R 1 G R 2 G R 2 X T C 2 Y 1 4 .1 9 4 3 0 4 M H z M S X T V D D 6 4 H z V S S 1 /2 D u ty V F D P a n e l 2 g 2 g S W 8 S W 3 4 b , 4 c , 2 b 2 f 3 d , 1 d B L A N K S W 4 2 a , 2 d 4 b , 4 c , 2 b D IM 1 F - C 1 J u m p e r 1 2 Note: Capacitor C1 and C2 can adjust the accuracy of frequency Rev. 1.30 6 May 24, 2012 HT16562 Package Information Note that the package information provided here is for consultation purposes only. As this information may be updated at regular intervals users are reminded to consult the Holtek website for the latest version of the package information. 30-pin SSOP (209mil) Outline Dimensions 3 0 1 6 A B 1 5 1 C C ' G D E F H = · MO-150 Symbol Dimensions in inch Min. Nom. Max. A 0.291 ¾ 0.323 B 0.197 ¾ 0.220 C 0.009 ¾ 0.013 C¢ 0.390 ¾ 0.413 D ¾ ¾ 0.079 E ¾ 0.026 ¾ F 0.002 ¾ ¾ G 0.022 ¾ 0.037 H 0.004 ¾ 0.008 a 0° ¾ 8° Symbol A Dimensions in mm Min. Nom. Max. 7.40 ¾ 8.20 B 5.00 ¾ 5.60 C 0.22 ¾ 0.33 C¢ 9.90 ¾ 10.50 D ¾ 2.00 E ¾ 0.65 ¾ F 0.05 ¾ ¾ G 0.55 ¾ 0.95 H 0.09 ¾ 0.21 a 0° ¾ 8° 7 April 21, 2009 HT16562 Holtek Semiconductor Inc. (Headquarters) No.3, Creation Rd. II, Science Park, Hsinchu, Taiwan Tel: 886-3-563-1999 Fax: 886-3-563-1189 http://www.holtek.com.tw Holtek Semiconductor Inc. (Taipei Sales Office) 4F-2, No. 3-2, YuanQu St., Nankang Software Park, Taipei 115, Taiwan Tel: 886-2-2655-7070 Fax: 886-2-2655-7373 Fax: 886-2-2655-7383 (International sales hotline) Holtek Semiconductor Inc. (Shenzhen Sales Office) 5F, Unit A, Productivity Building, No.5 Gaoxin M 2nd Road, Nanshan District, Shenzhen, China 518057 Tel: 86-755-8616-9908, 86-755-8616-9308 Fax: 86-755-8616-9722 Holtek Semiconductor (USA), Inc. (North America Sales Office) 46729 Fremont Blvd., Fremont, CA 94538, USA Tel: 1-510-252-9880 Fax: 1-510-252-9885 http://www.holtek.com Copyright Ó 2012 by HOLTEK SEMICONDUCTOR INC. The information appearing in this Data Sheet is believed to be accurate at the time of publication. However, Holtek assumes no responsibility arising from the use of the specifications described. The applications mentioned herein are used solely for the purpose of illustration and Holtek makes no warranty or representation that such applications will be suitable without further modification, nor recommends the use of its products for application that may present a risk to human life due to malfunction or otherwise. Holtek¢s products are not authorized for use as critical components in life support devices or systems. Holtek reserves the right to alter its products without prior notification. For the most up-to-date information, please visit our web site at http://www.holtek.com.tw. Rev. 1.30 8 May 24, 2012