MT9M034I12STCH-S213A-GEVB Datasheet MT9M034I12STC-DPBR1, MT9M034I12STC-DRBR1, MT9M034I12STCH-S213A-GEVB | P34-P36

MT9M034

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Table 21. OPERATING CURRENT CONSUMPTION IN PARALLEL OUTPUT AND LINEAR MODE (continued)

UnitMaxTypMinSymbolConditionDefinition

I/O Digital Operating Current Streaming, 720p 60 fps

IDD_IO

− 35 40 mA

Analog Operating Current Streaming, 720p 60 fps

IAA

– 30 45 mA

Pixel Supply Current Streaming, 720p 60 fps

IAA_PIX

– 10 15 mA

PLL Supply Current Streaming, 720p 60f ps

IDD_PLL

– 7 15 mA

1. Operating currents are measured at the following conditions:

− V

AA = VAA_PIX = VDD_IO = VDD_PLL = 2.8 V

− V

DD =1.8 V

− PLL Enabled and PIXCLK = 74.25 MHz

− T

= 25°C

− C

LOAD = 10 pF Measured in dark

Table 22. OPERATING CURRENT CONSUMPTION IN PARALLEL OUTPUT AND HDR MODE

Definition Condition Symbol Min Typ Max Unit

Digital Operating Current Streaming, 1280x960 45 fps

IDD1

– 63 90 mA

Digital Operating Current Streaming, 1280x960 45 fps

IDD

– 95 115 mA

I/O Digital Operating Current Streaming, 1280x960 45 fps

IDD_IO

– 35 40 mA

Analog Operating Current Streaming, 1280x960 45 fps

IAA

– 65 75 mA

Pixel Supply Current Streaming, 1280x960 45 fps

IAA_PIX

– 15 20 mA

PLL Supply Current Streaming, 1280x960 45 fps

IDD_PLL

– 7 15 mA

Digital Operating Current Streaming, 720p 60 fps

IDD

– 95 115 mA

I/O Digital Operating Current Streaming, 720p 60 fps

IDD_IO

– 35 40 mA

Analog Operating Current Streaming, 720p 60 fps

IAA

– 61 75 mA

Pixel Supply Current Streaming, 720p 60 fps

IAA_PIX

– 15 20 mA

PLL Supply Current Streaming, 720p 60 fps

IDD_PLL

– 7 15 mA

1. Operating currents are measured at the following conditions:

− V

AA = VAA_PIX = VDD_IO = VDD_PLL = 2.8 V

− V

DD =1.8 V

− PLL Enabled and PIXCLK = 74.25 MHz

− T

= 25°C

− C

LOAD = 10 pF Measured in dark

Table 23. STANDBY CURRENT CONSUMPTION

Definition Condition Symbol Min Typ Max Unit

Hard Standby (Clock Off)

Analog, 2.8 V – – 30 100 μA

Digital, 1.8 V – – 85 2500 μA

Hard Standby (Clock On)

Analog, 2.8 V – – 30 100 μA

Digital, 1.8 V – – 1.55 4 mA

Soft Standby (Clock Off)

Analog, 2.8 V – – 85 100 μA

Digital, 1.8 V – – 85 2500 μA

Soft Standby (Clock On)

Analog, 2.8 V – – 30 100 μA

Digital, 1.8 V – – 1.55 4 mA

1. Analog – VAA + VAA_PIX + VDD_PLL

2. Digital – V

DD + VDD_IO

MT9M034

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Figure 28. Power Supply Rejection Ratio

1000 10000 100000 1000000

Power Supply Rejection Ratio

Frequency (Hz)

PSRR (dB)

MT9M034

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POWER−ON RESET AND STANDBY TIMING

Power−Up Sequence

The recommended power−up sequence for the MT9M034

is shown in Figure 29. The available power supplies

DD_IO, VDD, VDD_PLL, VAA, VAA_PIX) must have the

separation specified below.

1. Turn on V

DD_PLL power supply

2. After 0–10 μs, turn on V

AA and VAA_PIX power

supply

3. After 0–10 μs, turn on V

DD_IO power supply

4. After the last power supply is stable, enable

EXTCLK

5. Assert RESET_BAR for at least 1 ms

6. Wait 850000 EXTCLKs (for internal initialization

into software standby)

7. Configure PLL, output, and image settings to

desired values

8. Wait 1ms for the PLL to lock

9. Set streaming mode (R0x301A[2] = 1)

Figure 29. Power Up

VDD _PLL (2.8)

AA _PIX

AA (2.8)

DD _IO (1.8/2.8)

DD (1.8)

EXTCLK

RESET_BAR

Hard Reset

Internal

Initialization

Software

Standby

PLL Lock

Streaming

Table 24. POWER−UP SEQUENCE

Definition Symbol Minimum Typical Maximum Unit

VDD_PLL to VAA/VAA_PIX (Note 3) t0 0 10 –

μs

VAA/VAA_PIX to VDD_IO t1 0 10 –

μs

VDD_IO to VDD t2 0 10 –

μs

Xtal Settle Time tx – 30 (Note 1) – ms

Hard Reset t4 1 (Note 2) – – ms

Internal Initialization t5 850000 – – EXTCLKS

PLL Lock Time t6 1 – – ms

1. Xtal settling time is component−dependent, usually taking about 10–100 ms.

2. Hard reset time is the minimum time required after power rails are settled. In a circuit where Hard reset is held down by RC circuit, then the

RC time must include the all power rail settle time and Xtal settle time.

3. It is critical that V

DD_PLL is not powered up after the other power supplies. It must be powered before or at least at the same time as the

others. If the case happens that V

DD_PLL is powered after other supplies then sensor may have functionality issues and will experience high

current draw on this supply.

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39

MT9M034I12STCH-S213A-GEVB

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Manufacturer:

ON Semiconductor

Description:

Optical Sensor Development Tools 1.2 MP 1/3" CIS HB

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MT9M034I12STCH-S213A-GEVB

MT9M034I12STCH-S213A-GEVB

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