E1466DHO-S8G3Y [ATMEL]

Clock IC, CMOS, PDSO8;


型号：	E1466DHO-S8G3Y
厂家：	ATMEL
描述：	Clock IC, CMOS, PDSO8 光电二极管
文件：	总8页 (文件大小：96K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

Features

• 32-kHz Crystal Oscillator

• 1.1 V to 2.2 V Operating-voltage Range

• Integrated Capacitors for Digital Trimming

• Suitable for up to 12.5 pF Quartz

• Output Pulse Formers

• Mask Options for Motor Period and Pulse Width

• Low Resistance Output for Bipolar Stepping Motor

• Motor Fast-test Function

32-kHz Clock

CMOS IC with

Digital

Description

The e1466D is an integrated circuit in CMOS Silicon Gate Technology for analog

clocks. It consists of a 32-kHz oscillator, frequency divider, output pulse formers and

push-pull motor drivers. Integrated capacitors are mask-selectable to accomodate the

external quartz crystal. Additional capacitance can be selected through pad bonding

for trimming the oscillator frequency.

Trimming

e1466D

4731A–CLOCK–06/03

Pad Configuration

Figure 1. Pinning

C3 C2 C1

VDD ⁽¹⁾

VSS

OSCIN

OSCOUT ⁽¹⁾

e1466D

TEST ⁽²⁾

MOT1 ⁽²⁾

MOT2

MOT1

⁽¹⁾The pads VDD and OSCOUT are interchangeable per mask option

⁽²⁾The pads TEST and MOT1 are interchangeable per mask option

Pin Description

Name

Description

VDD

Positive supply voltage

Negative supply voltage

Oscillator input

VSS

OSCIN

OSCOUT

MOT1/2

C1, C2, C3, C4

TEST

Oscillator output

Motor drive outputs

Oscillator trimming inputs

TEST input/output

e1466D

4731A–CLOCK–06/03

e1466D

Functional Descripion

Oscillator

An oscillator inverter with feedback resistor is provided to generate the 32768 Hz clock fre-

quency. Values for the fixed capacitors at OSCIN and OSCOUT are mask-selectable (see

note 3 of “Operating Characteristics”). Four capacitor pads, C1 to C4, enable the users to add

integrated trimming capacitors to OSCIN, providing 15 tuning steps.

Trimming

Capacitors

A frequency variation of typically 4 ppm for each tuning step is obtained by bonding the capac-

itor pads to OSCIN. As none of these pads are bonded, the IC is in an untrimmed state. Figure

3 shows the trimming curve characteristic.

Note:

For applications which utilize this integrated trimming feature, Atmel will determine optimum val-

ues for the integrated capacitors COSCIN and COSCOUT.

Capacitor pads C1 to C4: 0 = open, 1 = connected to OSCIN

Combination C1 + C4 is redundant and therefore eliminated from the list

Table 1. Frequency Trimming Table

Capacitor Pads

Trimming Step

Motor Drive

Output

The e1466D contains two push-pull output buffers for driving bipolar stepping motors. During a

motor pulse, the N-channel device of one buffer and the P-channel device of the other buffer

will be activated. Both N-channel transistors are on and conducting between output pulses.

The outputs are protected against inductive voltage spikes with diodes to both supply pins.

The motor output period and pulse width are mask-programmable, as listed below:

Available motor periods (T_M): 125, 250, 500 ms and 2, 16 s

Available max. pulse widths (t_M): 15, 6, 23.4, 31.25, 46.9 ms and 1 s

Available motor periods for motor test (T_MT): 250, 500 ms and 1 s

Note:

The following constraints for combination of motor period and pulse widths have to be consid-

ered: T_M> 4 Pꢀt_M, T_MT> 4 P t_Mor alternatively T_M= 2 Pꢀt_M, T_MT= 2 Pꢀt_M

4731A–CLOCK–06/03

Test Functions

For test purposes, the TEST pad is open. With a high resistance probe (R O 10 Mꢀ,

C O 20 pF), a test frequency f_TESTof 128 Hz can be measured at the TEST pad. Connecting

TEST (for at least 32 ms) to V_DDchanges the motor period from the selected value to T_MT

(mask-selectable) while the pulse width remains unaffected. This feature can be used for test-

ing the mechanical parts of the clock.

Absolute Maximum Ratings

Absolute maximum ratings define parameter limits which, if exceeded, may permanently change or damage the device.

All inputs and outputs on Atmel’s circuits are protected against electrostatic discharges. However, precautions to minimize

the build-up of electrostatic charges during handling are recommended.

The circuit is protected against supply voltage reversal for typically 5 minutes.

Parameters

Symbol

V_SS

Value

Unit

Supply voltage

-0.3 to 5 V

Input voltage range, all inputs

Output short-circuit duration

Power dissipation (DIL package)

Operating ambient temperature range

Storage temperature range

V_IN

(V_SS- 0.3 V) ? V_IN? (V_DD+ 0.3 V)

indefinite

125

P_tot

T_amb

T_stg

T_sld

-20 to +70

-40 to +125

260

Lead temperature during soldering at 2 mm distance, 10 s

e1466D

4731A–CLOCK–06/03

e1466D

Operating Characteristics

V_SS= 0 V, V_DD= 1.5 V, T_amb= +25°C, unless otherwise specified.

All voltage levels are measured with reference to V_SS. Test crystal as specified below.

Parameters

Test Conditions

Symbol

V_DD

Min.

1.1

Typ.

Max.

Unit

Operating voltage

1.5

2.2

+70

Operating temperature

Operating current

T_amb

-20

(2)

R₁= A

I_DD

Motor Drive Output

Motor output current

Motor period

V_DD= 1.2 V, R₁= 200 ꢁ

I_M

T_M

T_MT

t_M

±4.3

See option list

Motor period during motor test

Motor pulse width

Oscillator

Startup voltage

Within 2 s

V_START

ꢂf/f

1.2

2.2

Frequency stability

Integrated input capacitance

Integrated output capacitance

ꢂV_DD= 100 mV, V_DD= 1.1 to 2.2 V

(3)

ppm

C_OSCIN

C_OSCOUT

See option list

(4)

Integrated capacitance for bond option

TEST Input

Input current

TEST = V_DDpeak current

TEST = V_SSpeak current

I_TINH

I_TINL

t_TIN

0.6

-0.6

23.4

-10

µA

Input current

-3

Input debounce delay

31.2

Notes: 1. Typical parameters represent the statistical mean values

2. See test circuit

3. Values can be selected in 1 pF steps. A total capacitance (C_OSCIN+ C_OSCOUT) of 38 pF is available

4. These values are valid for 10 pF quartz applications. For C_L= 12.5 pF these values change to 4.5, 6, 7.5, 9 pF

Figure 2. Functional Test

VDD

C4 C3 C2 C1

OSCIN

VSS

OSCOUT

e1466D

TEST

MOT2

R₁

MOT1

4731A–CLOCK–06/03

Test Crystal

Specification

Oscillation frequency

Series resistance

Static capacitance

f_OSC= 32768 Hz

R_S= 30 kꢀ

C₀= 1.5 pF

Dynamic capacitance C₁= 3.0 fF

Load capacitance C_Loptionally 10 or 12.5 pF

Figure 3. Motor Output Signal During Normal Operation and During Motor Test

Detail a

VDD

VSS

TEST

MOT1

VDD

VSS

t_M

MOT2

VDD

VSS

T_M

T_MT

Detail a:

1/f_TEST

Figure 4. Typical Trimming Curve Characteristic for T_Mof 2 s

2.00006

2.00005

2.00004

2.00003

2.00002

2.00001

2.00000

1.99999

1.99998

1.99997

1.99996

1.99995

1.99994

1.99993

1.99992

1.99991

COX = 1.05

COX = 1.00

COX = 0.95

10 11 12 13 14

Trimming Step

COX means frequency deviation due to production process variations.

Trimming inputs C1 ... C4 are binary weighted, i.e.,

C1 ... C4 = 0 corresponds to trimming step 0

C1 ... C4 = 1 corresponds to trimming step 15

LSB = C1

e1466D

4731A–CLOCK–06/03

e1466D

Ordering Information

Table 2. Option List e1466Dx

Load

Option

Motor

Integrated Capacitance

Capacitance

(1)

Cycle Pulse

Test

C_OSCIN

C_OSCOUT

(T_M)

(t_M)

(T_MT

)

46.9

62.5

250

0.25

2000

500/

250

1000

Note:

1. On-chip stray capacitance included

Option

Pad Designation

Pad 1

Pad 2

Pad 3

Pad 4

MOT1

Pad 5

MOT1

Pad 6

TEST

Pad 7

V_SS

Pad 8

V_DD

Pad 8

Pad 10 Pad 11 Pad 12

OSCIN OSCOUT MOT2

V_SS

V_DD

V_SS

V_DD

V_SS

V_DD

4731A–CLOCK–06/03

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Printed on recycled paper.

4731A–CLOCK–06/03

E1466DHO-S8G3Y [ATMEL]

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